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AT2025ulz and S250818k: Investigating early time observations of a subsolar mass gravitational-wave binary neutron star merger candidate
Authors:
Xander J. Hall,
Malte Busmann,
Hauke Koehn,
Keerthi Kunnumkai,
Antonella Palmese,
Brendan O'Connor,
James Freeburn,
Lei Hu,
Daniel Gruen,
Tim Dietrich,
Mattia Bulla,
Michael W. Coughlin,
Sarah Antier,
Marion Pillas,
Paul A. Price,
Tomás Ahumada,
Ariel Amsellem,
Igor Andreoni,
Jule Augustin,
Tom'as Cabrera,
Rasika Deshpande,
Jennifer Fabà-Moreno,
Julius Gassert,
Sergey Karpov,
Mansi Kasliwal
, et al. (10 additional authors not shown)
Abstract:
Over the past LIGO--Virgo--KAGRA (LVK) observing runs, it has become increasingly clear that identifying the next electromagnetic counterparts to gravitational-wave (GW) neutron star mergers will likely be more challenging compared to the case of GW170817. The rarity of these GW events, and their electromagnetic counterparts, motivates rapid searches of any candidate binary neutron star (BNS) merg…
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Over the past LIGO--Virgo--KAGRA (LVK) observing runs, it has become increasingly clear that identifying the next electromagnetic counterparts to gravitational-wave (GW) neutron star mergers will likely be more challenging compared to the case of GW170817. The rarity of these GW events, and their electromagnetic counterparts, motivates rapid searches of any candidate binary neutron star (BNS) merger detected by the LVK. We present our extensive photometric and spectroscopic campaign of the candidate counterpart AT2025ulz to the low-significance GW event S250818k, which had a ${\sim} 29\%$ probability of being a BNS merger. We demonstrate that during the first five days, the luminosity and color evolution of AT2025ulz are consistent with both kilonova and shock cooling models, although a Bayesian model comparison shows preference for the shock cooling model, underscoring the ambiguity inherent to early data obtained over only a few days. Continued monitoring beyond this window reveals a rise and color evolution incompatible with kilonova models and instead consistent with a supernova. This event emphasizes the difficulty in identifying the electromagnetic counterparts to BNS mergers and the significant allotment of observing time necessary to robustly differentiate kilonovae from impostors.
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Submitted 28 October, 2025;
originally announced October 2025.
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ZTF25abjmnps (AT2025ulz) and S250818k: A Candidate Superkilonova from a Sub-threshold Sub-Solar Gravitational Wave Trigger
Authors:
Mansi M. Kasliwal,
Tomas Ahumada,
Robert Stein,
Viraj Karambelkar,
Xander J. Hall,
Avinash Singh,
Christoffer Fremling,
Brian D. Metzger,
Mattia Bulla,
Vishwajeet Swain,
Sarah Antier,
Marion Pillas,
Malte Busmann,
James Freeburn,
Sergey Karpov,
Aleksandra Bochenek,
Brendan O'Connor,
Daniel A. Perley,
Dalya Akl,
Shreya Anand,
Andrew Toivonen,
Sam Rose,
Theophile Jegou du Laz,
Chang Liu,
Kaustav Das
, et al. (39 additional authors not shown)
Abstract:
On August 18, 2025, the LIGO-Virgo-KAGRA collaboration reported gravitational waves from a sub-threshold binary neutron star merger. If astrophysical, this event would have a surprisingly low chirp mass, suggesting that at least one neutron star was below a solar mass. The Zwicky Transient Facility mapped the coarse localization and discovered a transient, ZTF25abjmnps (AT2025ulz), that was spatia…
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On August 18, 2025, the LIGO-Virgo-KAGRA collaboration reported gravitational waves from a sub-threshold binary neutron star merger. If astrophysical, this event would have a surprisingly low chirp mass, suggesting that at least one neutron star was below a solar mass. The Zwicky Transient Facility mapped the coarse localization and discovered a transient, ZTF25abjmnps (AT2025ulz), that was spatially and temporally coincident with the gravitational wave trigger. The first week of follow-up suggested properties reminiscent of a GW170817-like kilonova. Subsequent follow-up suggests properties most similar to a young, stripped-envelope, Type IIb supernova. Although we cannot statistically rule out chance coincidence, we undertake due diligence analysis to explore the possible association between ZTF25abjmnps and S250818k. Theoretical models have been proposed wherein sub-solar neutron star(s) may form (and subsequently merge) via accretion disk fragmentation or core fission inside a core-collapse supernova i.e. a ``superkilonova". Here, we qualitatively discuss our multi-wavelength dataset in the context of the superkilonova picture. Future higher significance gravitational wave detections of sub-solar neutron star mergers with extensive electromagnetic follow-up would conclusively resolve this tantalizing multi-messenger association.
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Submitted 13 November, 2025; v1 submitted 27 October, 2025;
originally announced October 2025.
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AT2025ulz and S250818k: Deep X-ray and radio limits on off-axis afterglow emission and prospects for future discovery
Authors:
Brendan O'Connor,
Roberto Ricci,
Eleonora Troja,
Antonella Palmese,
Yu-Han Yang,
Geoffrey Ryan,
Hendrik van Eerten,
Muskan Yadav,
Xander J. Hall,
Ariel Amsellem,
Rosa L. Becerra,
Malte Busmann,
Tomas Cabrera,
Simone Dichiara,
Lei Hu,
Ravjit Kaur,
Keerthi Kunnumkai,
Ignacio Magana Hernandez
Abstract:
The first joint electromagentic (EM) and gravitational wave (GW) detection, known as GW170817, marked a critical juncture in our collective understanding of compact object mergers. However, it has now been 8 years since this discovery, and the search for a second EM-GW detection has yielded no robust discoveries. Recently, on August 18, 2025, the LIGO-Virgo-KAGRA collaboration reported a low-signi…
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The first joint electromagentic (EM) and gravitational wave (GW) detection, known as GW170817, marked a critical juncture in our collective understanding of compact object mergers. However, it has now been 8 years since this discovery, and the search for a second EM-GW detection has yielded no robust discoveries. Recently, on August 18, 2025, the LIGO-Virgo-KAGRA collaboration reported a low-significance (high false alarm rate) binary neutron star merger candidate S250818k. Rapid optical follow-up revealed a single optical candidate AT2025ulz ($z=0.08484$) that initially appeared consistent with kilonova emission. We quickly initiated a set of observations with \textit{Swift}, \textit{XMM-Newton}, \textit{Chandra}, and the Very Large Array to search for non-thermal afterglow emission. Our deep X-ray and radio search rules out that the optical rebrightening of AT2025ulz is related to the afterglow onset, reinforcing its classification as a stripped-envelope supernova (SN 2025ulz). We derive constraints on the afterglow parameters for a hypothetical binary neutron star merger at the distance of AT2025ulz ($\approx 400$ Mpc) based on our X-ray and radio limits. We conclude that our observational campaign could exclude a GW170817-like afterglow out to viewing angles of $θ_\textrm{v}\approx 12.5$ degrees. We briefly discuss the prospects for the future discovery of off-axis afterglows.
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Submitted 29 October, 2025; v1 submitted 27 October, 2025;
originally announced October 2025.
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AT2025ulz and S250818k: Leveraging DESI spectroscopy in the hunt for a kilonova associated with a sub-solar mass gravitational wave candidate
Authors:
Xander J. Hall,
Antonella Palmese,
Brendan O'Connor,
Daniel Gruen,
Malte Busmann,
Julius Gassert,
Lei Hu,
Ignacio Magana Hernandez,
Jessica Nicole Aguilar,
Ariel Amsellem,
Steven Ahlen,
John Banovetz,
Segev BenZvi,
Davide Bianchi,
David Brooks,
Francisco Javier Castander,
Todd Claybaugh,
Andrei Cuceu,
Arjun Dey,
Peter Doel,
Jennifer Faba-Moreno,
Simone Ferraro,
Andreu Font-Ribera,
Jaime E. Forero-Romero,
Gaston Gutierrez
, et al. (25 additional authors not shown)
Abstract:
On August 18th, 2025, the LIGO--Virgo--KAGRA collaboration reported a sub-threshold gravitational wave candidate detection consistent with a sub-solar-mass neutron star merger, denoted S250818k. An optical transient, AT2025ulz, was discovered within the localization region. AT2025ulz initially appeared to meet the expected behavior of kilonova (KN) emission, the telltale signature of a binary neut…
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On August 18th, 2025, the LIGO--Virgo--KAGRA collaboration reported a sub-threshold gravitational wave candidate detection consistent with a sub-solar-mass neutron star merger, denoted S250818k. An optical transient, AT2025ulz, was discovered within the localization region. AT2025ulz initially appeared to meet the expected behavior of kilonova (KN) emission, the telltale signature of a binary neutron star merger. The transient subsequently rebrightened after $\sim$\,$5$ days and developed spectral features characteristic of a Type IIb supernova. In this work, we analyze the observations of the host galaxy of AT2025ulz obtained by the Dark Energy Spectroscopic Instrument (DESI). From the DESI spectrum, we obtain a secure redshift of $z = 0.084840 \pm 0.000006$, which places the transient within $2σ$ of the gravitational wave distance and results in an integral overlap between the gravitational wave alert and the transient location of $\log_{10}\mathcal{I} \approx 3.9-4.2$. Our analysis of the host galaxy's spectral energy distribution reveals a star-forming, dusty galaxy with stellar mass ${\sim} 10^{10}~M_\odot$, broadly consistent with the population of both short gamma-ray bursts and core-collapse supernova host galaxies. We also present our follow-up of DESI-selected candidate host galaxies using the Fraunhofer Telescope at the Wendelstein Observatory, and show the promise of DESI for associating or rejecting candidate electromagnetic counterparts to gravitational wave alerts. These results emphasize the value of DESI's extensive spectroscopic dataset in rapidly characterizing host galaxies, enabling spectroscopic host subtraction, and guiding targeted follow-up.
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Submitted 27 October, 2025;
originally announced October 2025.
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AT2025ulz and S250818k: zooming in with the Hubble Space Telescope
Authors:
Yu-Han Yang,
Eleonora Troja,
Marko Ristić,
Muskan Yadav,
Massine El Kabir,
Rubén Sánchez-Ramírez,
Rosa L. Becerra,
Chris L. Fryer,
Brendan O'Connor,
Simone Dichiara,
Alberto J. Castro-Tirado,
Camila Angulo-Valdez,
Josefa Becerra González,
José A. Font,
Ori Fox,
Lei Hu,
Youdong Hu,
William H. Lee,
Margarita Pereyra,
Alicia M. Sintes,
Alan M. Watson,
K. Océlotl C. López Mendoza
Abstract:
AT2025ulz is an optical/near-infrared transient discovered during follow-up of the candidate gravitational wave (GW) event S250818k. Its young age ($\lesssim$1 d), rapid decline and strong color evolution over the first 48 hr classify it as a potential kilonova candidate. In this work, we present the results of our observing campaign, carried out with the Gran Telescopio Canarias (GTC) and the Hub…
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AT2025ulz is an optical/near-infrared transient discovered during follow-up of the candidate gravitational wave (GW) event S250818k. Its young age ($\lesssim$1 d), rapid decline and strong color evolution over the first 48 hr classify it as a potential kilonova candidate. In this work, we present the results of our observing campaign, carried out with the Gran Telescopio Canarias (GTC) and the Hubble Space Telescope (HST). Although the early time evolution of AT2025ulz resembles some aspects of a kilonova, its rapid onset ($\sim$3 hr after the GW trigger) and luminosity (a factor of $\sim5$ brighter than AT2017gfo in $g$-band) are difficult to reproduce. Only a small subset of our kilonova models matches its multi-color light curve, and the inferred ejecta mass is uncomfortably large given the low chirp mass ($\lesssim\!0.87\!$ M$_{\odot}$) of the GW candidate. HST observations place the transient within a nearby ($z=0.08489$) spiral galaxy with on-going star-formation and measure a color ($F336W-F160W\!\approx\!1.4$ mag) that is too blue to match with a kilonova. Our data support the classification of AT2025ulz as a supernova, initially undergoing a shock-cooling phase and later entering its photospheric phase, and spectroscopically identified via its broad absorption features.
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Submitted 17 December, 2025; v1 submitted 21 October, 2025;
originally announced October 2025.
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Exploring the connection between compact object mergers and fast X-ray transients: The cases of LXT 240402A and EP250207b
Authors:
R. L. Becerra,
Yu-Han Yang,
Eleonora Troja,
Massine El Kabir,
Simone Dichiara,
Niccolò Passaleva,
Brendan O'Connor,
Roberto Ricci,
Chris Fryer,
Lei Hu,
Qinyu Wu,
Muskan Yadav,
Alan M. Watson,
Anastasia Tsvetkova,
Camila Angulo-Valdez,
María D. Caballero-García,
Alberto J. Castro-Tirado,
C. C. Cheung,
Dmitry Frederiks,
Maria Gritsevich,
J. E. Grove,
M. Kerr,
William H. Lee,
Alexandra L. Lysenko,
Margarita Pereyra Talamantes
, et al. (7 additional authors not shown)
Abstract:
The connection between compact object mergers and some extragalactic fast X-ray transients (FXRTs) has long been hypothesized, but never ultimately established. In this work, we investigate two FXRTs, the LEIA X-ray Transient LXT 240402A and the Einstein Probe EP250207b, whose precise positions lie close to nearby ($z\!\lesssim\!0.1$) quiescent galaxies with negligible probability of chance coinci…
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The connection between compact object mergers and some extragalactic fast X-ray transients (FXRTs) has long been hypothesized, but never ultimately established. In this work, we investigate two FXRTs, the LEIA X-ray Transient LXT 240402A and the Einstein Probe EP250207b, whose precise positions lie close to nearby ($z\!\lesssim\!0.1$) quiescent galaxies with negligible probability of chance coincidence, identifying them as particularly promising cases of merger-driven explosions in the local Universe. We used Chandra to derive accurate localizations for both events and secure otherwise ambiguous associations with their optical counterparts. Deep optical and near-infrared observations with VLT, GTC, and LBT were performed to characterize the surrounding environment and search for kilonova emission, the hallmark of neutron star mergers. Complementary early-time X-ray monitoring with Swift and Einstein Probe was used to constrain the non-thermal afterglow. We find that both FXRTs remain compatible with a compact binary merger progenitor, which produced low-mass ejecta and kilonova emission subdominant to the afterglow. However, alternative explanations such as a distant ($z\!\gtrsim\!1$) core-collapse supernova cannot be conclusively ruled out.
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Submitted 8 December, 2025; v1 submitted 14 October, 2025;
originally announced October 2025.
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An FPCA-Enhanced Ensemble Learning Framework for Photometric Identification of Type Ia Supernovae
Authors:
Moonzarin Reza,
Lifan Wang,
Lei Hu
Abstract:
Type Ia supernovae (SNe Ia) are essential tools for addressing key cosmic questions, including the Hubble tension and the nature of dark energy. Modern surveys are predominantly photometry-based, making the construction of a clean photometric SNe Ia sample crucial. In this study, we investigate whether functional principal component analysis (FPCA) scores derived from photometric light curves, com…
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Type Ia supernovae (SNe Ia) are essential tools for addressing key cosmic questions, including the Hubble tension and the nature of dark energy. Modern surveys are predominantly photometry-based, making the construction of a clean photometric SNe Ia sample crucial. In this study, we investigate whether functional principal component analysis (FPCA) scores derived from photometric light curves, combined with ensemble learning, can reliably distinguish SNe Ia from other transients using the PLAsTiCC dataset. FPCA provides a data-driven, flexible characterization of light curves without relying on rigid theoretical model assumptions. Light curves are fitted by minimizing residuals with penalty terms from clean samples, making the method robust to outliers or poorly sampled bands. The first two FPCA scores and peak magnitudes across the five LSST bands are used as classification features. We implement two complementary binary classifiers: an ensemble boosting model (CatBoost) and a statistical probabilistic method based on Euclidean distances. CatBoost slightly outperforms the statistical method, achieving 98.5% accuracy and 97.8% precision. Performance remains robust (>90%) under typical photometric redshift uncertainties (σ = 0.1). On the spectroscopic DES Y5 sample, both methods reach approximately 90% accuracy and 95% precision, demonstrating strong out-of-domain generalization compared to state-of-the-art methods with limited cross-survey applicability. Applied to DECam DDF and DESIRT transients, the predictions strongly agree, and their intersection provides a high-confidence SNe Ia sample for cosmological analyses. Overall, this FPCA-based framework offers a powerful, flexible tool for classifying transients in upcoming large-scale surveys such as LSST and Roman.
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Submitted 10 October, 2025;
originally announced October 2025.
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Optical/infrared observations of the extraordinary GRB 250702B: a highly obscured afterglow in a massive galaxy consistent with multiple possible progenitors
Authors:
Jonathan Carney,
Igor Andreoni,
Brendan O'Connor,
James Freeburn,
Hannah Skobe,
Lewi Westcott,
Malte Busmann,
Antonella Palmese,
Xander J. Hall,
Ramandeep Gill,
Paz Beniamini,
Eric R. Coughlin,
Charles D. Kilpatrick,
Akash Anumarlapudi,
Nicholas M. Law,
Hank Corbett,
Tomas Ahumada,
Ping Chen,
Christopher Conselice,
Guillermo Damke,
Kaustav K. Das,
Avishay Gal-Yam,
Daniel Gruen,
Steve Heathcote,
Lei Hu
, et al. (9 additional authors not shown)
Abstract:
GRB 250702B was the longest gamma-ray burst ever detected, with a duration that challenges standard collapsar models and suggests an exotic progenitor. We collected a rich set of optical and infrared follow-up observations of its rapidly fading afterglow using a suite of telescopes including the W. M. Keck Observatory, the Gemini telescopes, the Magellan Baade Telescope, the Victor M. Blanco 4-met…
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GRB 250702B was the longest gamma-ray burst ever detected, with a duration that challenges standard collapsar models and suggests an exotic progenitor. We collected a rich set of optical and infrared follow-up observations of its rapidly fading afterglow using a suite of telescopes including the W. M. Keck Observatory, the Gemini telescopes, the Magellan Baade Telescope, the Victor M. Blanco 4-meter telescope, and the Fraunhofer Telescope at Wendelstein Observatory. Our analysis reveals that the afterglow emission is well described by forward shock emission from a highly obscured relativistic jet. Deep photometric observations of the host galaxy reveal a massive (10^10.66 solar masses), dusty, and extremely asymmetric system that is consistent with two galaxies undergoing a major merger. The galactocentric offset, host galaxy properties, and jet characteristics disfavor a jetted TDE around a supermassive black hole but do not definitively distinguish between competing progenitor scenarios. We find that the afterglow and host are consistent with a range of progenitors including an atypical collapsar, a merger between a helium star and a stellar mass black hole, the disruption of a star by a stellar mass compact object (micro-TDE), and the tidal disruption of a star by an off-nuclear intermediate mass black hole.
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Submitted 5 November, 2025; v1 submitted 26 September, 2025;
originally announced September 2025.
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NEXUS: A Search for Nuclear Variability with the First Two JWST NIRCam Epochs
Authors:
Zachary Stone,
Yue Shen,
Ming-Yang Zhuang,
Lei Hu,
Justin Pierel,
Junyao Li,
Adam J. Burgasser,
Jenny E. Greene,
Zhiwei Pan,
Alice E. Shapley,
Fengwu Sun,
Padmavathi Venkatraman,
Feige Wang
Abstract:
The multi-cycle JWST Treasury program NEXUS will obtain cadenced imaging and spectroscopic observations around the North Ecliptic Pole during 2024-2028. Here we report a systematic search for nuclear variability among $\sim 25\,$k sources covered by NIRCam (F200W+F444W) imaging using the first two NEXUS epochs separated by 9 months in the observed frame. Difference imaging techniques reach $1σ$ va…
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The multi-cycle JWST Treasury program NEXUS will obtain cadenced imaging and spectroscopic observations around the North Ecliptic Pole during 2024-2028. Here we report a systematic search for nuclear variability among $\sim 25\,$k sources covered by NIRCam (F200W+F444W) imaging using the first two NEXUS epochs separated by 9 months in the observed frame. Difference imaging techniques reach $1σ$ variability sensitivity of 0.18~mag (F200W) and 0.15~mag (F444W) at 28th magnitude (within 0".2 diameter aperture), improved to $0.01$~mag and $0.02$~mag at $<25$th magnitude, demonstrating the superb performance of NIRCam photometry. The difference imaging results represent significant improvement over aperture photometry on individual epochs (by $>30\%$). We identify 465 high-confidence variable sources among the parent sample, with 2-epoch flux difference at $>3σ$ from the fiducial variability sensitivity. Essentially all these variable sources are of extragalactic origin based on preliminary photometric classifications, and follow a similar photometric redshift distribution as the parent sample up to $z_{\rm phot}>10$. While the majority of these variability candidates are likely normal unobscured AGNs, some of them may be rare nuclear stellar transients and tidal disruption events that await confirmation with spectroscopy and continued photometric monitoring. We also constrain the photometric variability of ten spectroscopically confirmed broad-line Little Red Dots (LRDs) at $3\lesssim z \lesssim 7$, and find none of them show detectable variability in either band. We derive stringent $3σ$ upper limits on the F444W variability of $\sim 3-10\%$ for these LRDs, with a median value of $\sim 5\%$. These constraints imply weak variability in the rest-frame optical continuum of LRDs.
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Submitted 23 September, 2025;
originally announced September 2025.
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phrosty: A difference imaging pipeline for Roman
Authors:
Lauren Aldoroty,
Lei Hu,
Rob Knop,
Cole Meldorf,
Daniel Scolnic,
Shu Liu,
W. Michael Wood-Vasey,
Marcus Manos,
Lucas Erlandson,
Rebekah Hounsell,
Ben Rose,
Masao Sako,
Michael Troxel,
The Roman Supernova Cosmology Project Infrastructure Team
Abstract:
NASA's Nancy Grace Roman Space Telescope (Roman) will provide an opportunity to study dark energy with unprecedented precision using several techniques, including measurements of Type Ia Supernovae (SNe Ia). Here, we present `phrosty` (PHotometry for ROman with SFFT for tYpe Ia supernovae): a difference imaging pipeline for measuring the brightness of transient point sources in the sky, primarily…
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NASA's Nancy Grace Roman Space Telescope (Roman) will provide an opportunity to study dark energy with unprecedented precision using several techniques, including measurements of Type Ia Supernovae (SNe Ia). Here, we present `phrosty` (PHotometry for ROman with SFFT for tYpe Ia supernovae): a difference imaging pipeline for measuring the brightness of transient point sources in the sky, primarily SNe Ia, using Roman data. `phrosty` is written in Python. We implement a GPU-accelerated version of the Saccadic Fast Fourier Transform (SFFT) method for difference imaging.
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Submitted 22 September, 2025;
originally announced September 2025.
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Multiwavelength Observations of the Apparently Non-repeating FRB 20250316A
Authors:
Ye Li,
Hui Sun,
Lei Qian,
Dong-Yue Li,
Yan-Long Hua,
Li-Ping Xin,
Cheng-Kui Li,
Yi-Han Wang,
Jia-Rui Niu,
Tian-Rui Sun,
Zhu-Heng Yao,
Jin-Jun Geng,
Chi-Chuan Jin,
Nanda Rea,
Yuan Liu,
Zhi-Chen Pan,
Tao An,
Vadim Burwitz,
Zhi-Ming Cai,
Jin-Huang Cao,
Yong Chen,
Hua-Qing Cheng,
Wei-Wei Cui,
Hua Feng,
Peter Friedrich
, et al. (50 additional authors not shown)
Abstract:
The physical origin of fast radio bursts (FRBs) remains uncertain. Although multiwavelength observations have been widely conducted, only Galactic FRB~20200428D is associated with an X-ray burst from the magnetar SGR J1935+2154. Here, we present multiwavelength follow-up observations of the nearby bright FRB~20250316A, including the Five-hundred-meter Aperture Spherical radio Telescope (FAST), Ein…
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The physical origin of fast radio bursts (FRBs) remains uncertain. Although multiwavelength observations have been widely conducted, only Galactic FRB~20200428D is associated with an X-ray burst from the magnetar SGR J1935+2154. Here, we present multiwavelength follow-up observations of the nearby bright FRB~20250316A, including the Five-hundred-meter Aperture Spherical radio Telescope (FAST), Einstein Probe (EP) X-ray mission, Chandra X-ray Observatory, Wide Field Survey Telescope (WFST) and Space Variable Object Monitor/Visible Telescope (SVOM/VT). The 13.08-hour FAST follow-up campaign without pulse detection requires an energy distribution flatter than those of well-known repeating FRBs, suggesting that this burst is likely a one-off event. A prompt EP follow-up and multi-epoch observational campaign totaling $>$ 100 ks led to the detection of an X-ray source within the angular resolution of its Follow-up X-ray Telescope (FXT, $10^{\prime\prime}$). A subsequent Chandra observation revealed this source to be offset by $7^{\prime\prime}$ from the FRB position, and established a 0.5-10 keV flux upper limit of $7.6\times 10^{-15}$ $\rm erg\,cm^{-2}\,s^{-1}$ at the FRB position, corresponding to $\sim 10^{39}$ $\rm erg\,s^{-1}$ at the 40 Mpc distance of the host galaxy NGC~4141. These results set one of the most stringent limits on X-ray emission from a non-repeating FRB, disfavoring ultra-luminous X-ray sources (ULXs) as counterparts of apparently one-off FRBs and offering critical insights into afterglow models. Our study suggests that an arcsecond localization of both the FRB and its potential X-ray counterpart is essential for exploring the X-ray counterpart of an FRB.
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Submitted 18 November, 2025; v1 submitted 19 August, 2025;
originally announced August 2025.
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LIGO/Virgo/KAGRA neutron star merger candidate S250206dm: Zwicky Transient Facility observations
Authors:
Tomás Ahumada,
Shreya Anand,
Mattia Bulla,
Vaidehi Gupta,
Mansi Kasliwal,
Robert Stein,
Viraj Karambelkar,
Eric C. Bellm,
Theophile Jegou du Laz,
Michael W. Coughlin,
Igor Andreoni,
Smaranika Banerjee,
Aleksandra Bochenek,
K-Ryan Hinds,
Lei Hu,
Antonella Palmese,
Daniel Perley,
Natalya Pletskova,
Anirudh Salgundi,
Avinash Singh,
Jesper Sollerman,
Vishwajeet Swain,
Avery Wold,
Varun Bhalerao,
S. Bradley Cenko
, et al. (27 additional authors not shown)
Abstract:
We present the searches conducted with the Zwicky Transient Facility (ZTF) in response to S250206dm, a bona fide event with a false alarm rate of one in 25 years, detected by the International Gravitational Wave Network (IGWN). Although the event is significant, the nature of the compact objects involved remains unclear, with at least one likely neutron star. ZTF covered 68% of the localization re…
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We present the searches conducted with the Zwicky Transient Facility (ZTF) in response to S250206dm, a bona fide event with a false alarm rate of one in 25 years, detected by the International Gravitational Wave Network (IGWN). Although the event is significant, the nature of the compact objects involved remains unclear, with at least one likely neutron star. ZTF covered 68% of the localization region, though we did not identify any likely optical counterpart. We describe the ZTF strategy, potential candidates, and the observations that helped rule out candidates, including sources circulated by other collaborations. Similar to Ahumada et al. 2024, we perform a frequentist analysis, using simsurvey, as well as Bayesian analysis, using nimbus, to quantify the efficiency of our searches. We find that, given the nominal distance to this event of 373$\pm$104 Mpc, our efficiencies are above 10% for KNe brighter than $-17.5$ absolute magnitude. Assuming the optical counterpart known as kilonova (KN) lies within the ZTF footprint, our limits constrain the brightest end of the KN parameter space. Through dedicated radiative transfer simulations of KNe from binary neutron star (BNS) and black hole-neutron star (BHNS) mergers, we exclude parts of the BNS KN parameter space. Up to 35% of the models with high wind ejecta mass ($M_{\rm wind} \approx 0.13$ M$_{\odot}$) are ruled out when viewed face-on ($\cosθ_{\rm obs} = 1.0$). Finally, we present a joint analysis using the combined coverage from ZTF and the Gravitational Wave Multimessenger Dark Energy Camera Survey (GW-MMADS). The joint observations cover 73% of the localization region, and the combined efficiency has a stronger impact on rising and slowly fading models, allowing us to rule out 55% of the high-mass KN models viewed face-on.
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Submitted 30 June, 2025;
originally announced July 2025.
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Kilonova constraints for the LIGO/Virgo/KAGRA neutron star merger candidate S250206dm: GW-MMADS observations
Authors:
Lei Hu,
Tomás Cabrera,
Antonella Palmese,
James Freeburn,
Mattia Bulla,
Igor Andreoni,
Xander J. Hall,
Brendan O'Connor,
Ariel Amsellem,
Clécio R. Bom,
Malte Busmann,
Jennifer Fabà,
Julius Gassert,
Sena Kalabalik,
Keerthi Kunnumkai,
Daniel Gruen,
Luidhy Santana-Silva,
André Santos,
Tomás Ahumada,
Jonathan Carney,
Michael W. Coughlin,
Xingzhuo Chen,
K. E. Saavik Ford,
Daniel E. Holz,
Mansi M. Kasliwal
, et al. (13 additional authors not shown)
Abstract:
Gravitational wave (GW) neutron star mergers with an associated electromagnetic counterpart constitute powerful probes of binary evolution, the production sites of heavy elements, general relativity, and the expansion of the universe. Only a handful of candidate GW binary mergers during the fourth LIGO/Virgo/KAGRA observing run (O4) so far are believed to include a neutron star. We present optical…
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Gravitational wave (GW) neutron star mergers with an associated electromagnetic counterpart constitute powerful probes of binary evolution, the production sites of heavy elements, general relativity, and the expansion of the universe. Only a handful of candidate GW binary mergers during the fourth LIGO/Virgo/KAGRA observing run (O4) so far are believed to include a neutron star. We present optical-near infrared follow-up observations of the candidate neutron-star black hole GW merger S250206dm. This is the first high-significance mass gap neutron star-black hole candidate observed by multiple GW detectors (thus having a significantly smaller sky localization than one-detector events), offering the first opportunity to effectively follow up a GW event of this kind. Our GW MultiMessenger Astronomy DECam Survey (GW-MMADS) campaign consisted of a wide-field search using the Dark Energy Camera (DECam) and T80-South (T80S), as well as galaxy-targeted observations using the Southern Astrophysical Research (SOAR) imager and the Wendelstein 2.1m 3-channel camera. No viable kilonova counterpart was found in our observations. We use our observation depths to place competitive constraints on kilonova models similar to or brighter than the GW170817 kilonova AT 2017gfo within our observed fields, ruling out 100\% of such models with SOAR galaxy-targeted observations and $\sim43$\% (48\%) with DECam (DECam and T80S).
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Submitted 27 June, 2025;
originally announced June 2025.
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PEARLS: Twenty-One Transients Found in the Three-Epoch NIRCam Observations in the Continuous Viewing Zone of the James Webb Space Telescope
Authors:
Haojing Yan,
Bangzheng Sun,
Zhiyuan Ma,
Lifan Wang,
Christopher N. A. Willmer,
Wenlei Chen,
Norman A. Grogin,
John F. Beacom,
S. P. Willner,
Seth H. Cohen,
Rogier A. Windhorst,
Rolf A. Jansen,
Cheng Cheng,
Jia-Sheng Huang,
Min Yun,
Hansung B. Gim,
Heidi B. Hammel,
Stefanie N. Milam,
Anton M. Koekemoer,
Lei Hu,
Jose M. Diego,
Jake Summers,
Jordan C. J. D'Silva,
Dan Coe,
Christopher J. Conselice
, et al. (17 additional authors not shown)
Abstract:
We present 21 infrared transients found in our three-epoch, four-band NIRCam observations covering 14.16 arcmin^2 in the Spitzer IRAC Dark Field (IDF), taken by the JWST Prime Extragalactic Areas for Reionization and Lensing Science (PEARLS) program in Cycle 1 with a time cadence of ~6 months. A separate HST program provided complementary ACS optical imaging contemporaneous with the second and thi…
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We present 21 infrared transients found in our three-epoch, four-band NIRCam observations covering 14.16 arcmin^2 in the Spitzer IRAC Dark Field (IDF), taken by the JWST Prime Extragalactic Areas for Reionization and Lensing Science (PEARLS) program in Cycle 1 with a time cadence of ~6 months. A separate HST program provided complementary ACS optical imaging contemporaneous with the second and third epochs of the NIRCam observations. Spectroscopic identifications were carried out for three transients using the NIRSpec instrument. One of them was confirmed to be a Type Ia supernova at z=1.63, while the other two had their host galaxies identified at $z=2.64$ and 1.90, respectively. Combining these redshifts with the photometric redshifts of the host galaxies in the rest of the sample, we find that the transients are either in a "mid-z" group at z>1.6 with M_V < -16.0 mag or a "low-z" group at z<0.4 with M_H > -14.0 mag. The mid-z transients are consistent with various types of supernovae. In contrast, by their luminosities, the low-z transients fall in the range of the so-called ``gap transients'' between those of supernovae and classical novae. While they might contain some known types of gap transients (e.g., supernova impostors and luminous red novae), there could also be new kinds of transients. To reveal their nature, we will need a long-term, multi-band NIRCam monitoring program with a higher cadence and prompt NIRSpec follow-up spectroscopy. Being in the continuous viewing zone of the JWST, the IDF is an ideal field for such a future program.
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Submitted 13 June, 2025;
originally announced June 2025.
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Limits on the Ejecta Mass During the Search for Kilonovae Associated with Neutron Star-Black Hole Mergers: A case study of S230518h, GW230529, S230627c and the Low-Significance Candidate S240422ed
Authors:
M. Pillas,
S. Antier,
K. Ackley,
T. Ahumada,
D. Akl,
L. de Almeida,
S. Anand,
C. Andrade,
I. Andreoni,
K. A. Bostroem,
M. Bulla,
E. Burns,
T. Cabrera,
S. Chang,
H. Choi,
B. O'Connor,
M. W. Coughlin,
W. Corradi,
A. R. Gibbs,
T. Dietrich,
D. Dornic,
J. -G. Ducoin,
P. -A. Duverne,
M. Dyer,
H. -B. Eggenstein
, et al. (56 additional authors not shown)
Abstract:
Neutron star-black hole (NSBH) mergers, detectable via their gravitational-wave (GW) emission, are expected to produce kilonovae (KNe). Four NSBH candidates have been identified and followed-up by more than fifty instruments since the start of the fourth GW Observing Run (O4), in May 2023, up to July 2024; however, no confirmed associated KN has been detected. This study evaluates ejecta propertie…
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Neutron star-black hole (NSBH) mergers, detectable via their gravitational-wave (GW) emission, are expected to produce kilonovae (KNe). Four NSBH candidates have been identified and followed-up by more than fifty instruments since the start of the fourth GW Observing Run (O4), in May 2023, up to July 2024; however, no confirmed associated KN has been detected. This study evaluates ejecta properties from multi-messenger observations to understand the absence of detectable KN: we use GW public information and joint observations taken from 05.2023 to 07.2024 (LVK, ATLAS, DECam, GECKO, GOTO, GRANDMA, SAGUARO, TESS, WINTER, ZTF). First, our analysis on follow-up observation strategies shows that, on average, more than 50% of the simulated KNe associated with NSBH mergers reach their peak luminosity around one day after merger in the $g,r,i$- bands, which is not necessarily covered for each NSBH GW candidate. We also analyze the trade-off between observation efficiency and the intrinsic properties of the KN emission, to understand the impact on how these constraints affect our ability to detect the KN, and underlying ejecta properties for each GW candidate. In particular, we can only confirm the kilonova was not missed for 1% of the GW230529 and S230627c sky localization region, given the large sky localization error of GW230529 and the large distance for S230627c and, their respective KN faint luminosities. More constraining, for S230518h, we infer the dynamical ejecta and post-merger disk wind ejecta $m_{dyn}, m_{wind}$ $<$ $0.03$ $M_\odot$ and the viewing angle $θ>25^\circ$. Similarly, the non-astrophysical origin of S240422ed is likely further confirmed by the fact that we would have detected even a faint KN at the time and presumed distance of the S240422ed event candidate, within a minimum 45% credible region of the sky area, that can be larger depending on the KN scenario.
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Submitted 19 March, 2025;
originally announced March 2025.
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The curious case of EP241021a: Unraveling the mystery of its exceptional rebrightening
Authors:
Malte Busmann,
Brendan O'Connor,
Julian Sommer,
Daniel Gruen,
Paz Beniamini,
Ramandeep Gill,
Michael J. Moss,
Antonella Palmese,
Arno Riffeser,
Yu-Han Yang,
Eleonora Troja,
Simone Dichiara,
Roberto Ricci,
Noel Klingler,
Claus Gössl,
Lei Hu,
Arne Rau,
Christoph Ries,
Geoffrey Ryan,
Michael Schmidt,
Muskan Yadav,
Gregory R. Zeimann
Abstract:
Fast X-ray Transients (FXTs) are a rare and poorly understood phenomenon with a variety of possible progenitors. The launch of the Einstein Probe (EP) mission has facilitated a rapid increase in the real-time discovery and follow-up of FXTs. We focus on the recent EP discovered transient EP241021a, which shows a peculiar panchromatic behavior. We obtained optical and near-infrared multi-band imagi…
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Fast X-ray Transients (FXTs) are a rare and poorly understood phenomenon with a variety of possible progenitors. The launch of the Einstein Probe (EP) mission has facilitated a rapid increase in the real-time discovery and follow-up of FXTs. We focus on the recent EP discovered transient EP241021a, which shows a peculiar panchromatic behavior. We obtained optical and near-infrared multi-band imaging and spectroscopy with the Fraunhofer Telescope at Wendelstein Observatory, the Hobby-Eberly Telescope, and the Very Large Telescope over the first 100 days of its evolution. EP241021a was discovered by EP as a soft X-ray trigger, but was not detected at gamma-ray frequencies. The observed soft X-ray prompt emission spectrum is consistent with non-thermal radiation, which requires at least a mildly relativistic outflow with bulk Lorentz factor $Γ\gtrsim 4$. The optical and near-infrared lightcurve has a two component behavior where an initially fading component $\sim t^{-1}$ turns to a rise steeper than $\sim t^{4}$ after a few days before peaking at $M_r\approx -21.8$ mag and quickly returning to the initial decay. The peak absolute magnitude is the most luminous optical emission associated to an FXT, superseding EP240414a. Standard supernova models are unable to reproduce either the absolute magnitude or rapid timescale ($<2$ d) of the rebrightening. The X-ray, optical and near-infrared spectral energy distributions display a red color $r-J\approx 0.8$ mag, and point to a non-thermal origin ($ν^{-1}$) for the broadband emission. By considering a gamma-ray burst as a plausible scenario, we favor a refreshed shock as the cause of the rebrightening. This is consistent with the inference of an at least mildly relativistic outflow based on the prompt trigger. Our results suggest a link between EP discovered FXTs and gamma-ray bursts.
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Submitted 7 July, 2025; v1 submitted 18 March, 2025;
originally announced March 2025.
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An active repeating fast radio burst in a magnetized eruption environment
Authors:
Y. Li,
S. B. Zhang,
Y. P. Yang,
C. W. Tsai,
X. Yang,
C. J. Law,
R. Anna-Thomas,
X. L. Chen,
K. J. Lee,
Z. F. Tang,
D. Xiao,
H. Xu,
X. L. Yang,
G. Chen,
Y. Feng,
D. Z. Li,
R. Mckinven,
J. R. Niu,
K. Shin,
B. J. Wang,
C. F. Zhang,
Y. K. Zhang,
D. J. Zhou,
Y. H. Zhu,
Z. G. Dai
, et al. (13 additional authors not shown)
Abstract:
Fast radio bursts (FRBs) are millisecond-duration radio bursts with unidentified extra-galactic origin. Some FRBs exhibit mild magneto-ionic environmental variations, possibly attributed to plasma turbulence or geometric configuration variation in a binary system. Here we report an abrupt magneto-ionic environment variation of FRB 20220529, a repeating FRB from a disk galaxy at redshift 0.1839. In…
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Fast radio bursts (FRBs) are millisecond-duration radio bursts with unidentified extra-galactic origin. Some FRBs exhibit mild magneto-ionic environmental variations, possibly attributed to plasma turbulence or geometric configuration variation in a binary system. Here we report an abrupt magneto-ionic environment variation of FRB 20220529, a repeating FRB from a disk galaxy at redshift 0.1839. Initially, its Faraday rotation measure (RM) was $21 \pm 96~{\rm rad~m^{-2}}$ over 17 months. In December 2023, it jumped to $1976.9~{\rm rad~m^{-2}}$, exceeding twenty times of the standard deviation of the previous RM variation, and returned to the typical values within two weeks. Such a drastic RM variation suggests a dense magnetized clump moving across the line of sight, possibly due to coronal mass ejection associated with a stellar flare. It indicates that the FRB likely has a companion star that produced the stellar flare.
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Submitted 6 March, 2025;
originally announced March 2025.
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AT 2018dyk: tidal disruption event or active galactic nucleus? Follow-up observations of an extreme coronal line emitter with the Dark Energy Spectroscopic Instrument
Authors:
Peter Clark,
Joseph Callow,
Or Graur,
Claire Greenwell,
Lei Hu,
Jessica Aguilar,
Steven Ahlen,
Davide Bianchi,
David Brooks,
Todd Claybaugh,
Kyle Dawson,
Axel de la Macorra,
Peter Doel,
Satya Gontcho A Gontcho,
Gaston Gutierrez,
Klaus Honscheid,
Stephanie Juneau,
Robert Kehoe,
Theodore Kisner,
Anthony Kremin,
Martin Landriau,
Laurent Le Guillou,
Aaron Meisner,
Ramon Miquel,
John Moustakas
, et al. (7 additional authors not shown)
Abstract:
We present fresh insights into the nature of the tidal disruption event (TDE) candidate AT 2018dyk. AT 2018dyk has sparked a debate in the literature around its classification as either a bona-fide TDE or as an active galactic nucleus (AGN) turn-on state change. A new follow-up spectrum taken with the Dark Energy Spectroscopic Instrument, in combination with host-galaxy analysis using archival SDS…
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We present fresh insights into the nature of the tidal disruption event (TDE) candidate AT 2018dyk. AT 2018dyk has sparked a debate in the literature around its classification as either a bona-fide TDE or as an active galactic nucleus (AGN) turn-on state change. A new follow-up spectrum taken with the Dark Energy Spectroscopic Instrument, in combination with host-galaxy analysis using archival SDSS-MaNGA data, supports the identification of AT 2018dyk as a TDE. Specifically, we classify this object as a TDE that occurred within a gas-rich environment, which was responsible for both its mid-infrared (MIR) outburst and development of Fe coronal emission lines. Comparison with the known sample of TDE-linked extreme coronal line emitters (TDE-ECLEs) and other TDEs displaying coronal emission lines (CrL-TDEs) reveals similar characteristics and shared properties. For example, the MIR properties of both groups appear to form a continuum with links to the content and density of the material in their local environments. This includes evidence for a MIR colour-luminosity relationship in TDEs occurring within such gas-rich environments, with those with larger MIR outbursts also exhibiting redder peaks.
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Submitted 29 May, 2025; v1 submitted 6 February, 2025;
originally announced February 2025.
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The 2.5-meter Wide Field Survey Telescope Real-time Data Processing Pipeline I: From raw data to alert distribution
Authors:
Minxuan Cai,
Zelin Xu,
Lulu Fan,
Zhen Wan,
Xu Kong,
Weida Hu,
Ji-an Jiang,
Lei Hu,
Qing-feng Zhu,
Guoliang Li,
Jie Lin,
Min Fang,
Yongquan Xue,
Xianzhong Zhen,
Tinggui Wang
Abstract:
The Wide Field Survey Telescope (WFST) is a dedicated photometric surveying facility built jointly by the University of Science and Technology of China (USTC) and the Purple Mountain Observatory (PMO). Since many of its scientific objectives rely on near-real-time data for effective analysis, prompt processing of WFST images is of great significance. To meet this need, we adapted the Rubin Observa…
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The Wide Field Survey Telescope (WFST) is a dedicated photometric surveying facility built jointly by the University of Science and Technology of China (USTC) and the Purple Mountain Observatory (PMO). Since many of its scientific objectives rely on near-real-time data for effective analysis, prompt processing of WFST images is of great significance. To meet this need, we adapted the Rubin Observatory Legacy Survey of Space and Time (LSST) science pipelines to handle the data collected by WFST. This paper presents the complete data processing workflow, from ingestion of raw images to the distribution of alerts, and details the primary data products generated by our pipeline. Researchers using data processed by this pipeline can refer to this document to fully understand the data processing procedures.
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Submitted 24 January, 2025;
originally announced January 2025.
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Early-time millimeter observations of the nearby Type II SN 2024ggi
Authors:
Maokai Hu,
Yiping Ao,
Yi Yang,
Lei Hu,
Fulin Li,
Lifan Wang,
Xiaofeng Wang
Abstract:
The short-lived ionized emission lines in early spectroscopy of the nearby type II supernova SN 2024ggi signify the presence of dense circumstellar matter (CSM) close to its progenitor star. We proposed the Atacama Large Millimeter/submillimeter Array (ALMA) observations by its Director's Discretionary Time program to catch the potential synchrotron radiation associated with the ejecta-CSM interac…
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The short-lived ionized emission lines in early spectroscopy of the nearby type II supernova SN 2024ggi signify the presence of dense circumstellar matter (CSM) close to its progenitor star. We proposed the Atacama Large Millimeter/submillimeter Array (ALMA) observations by its Director's Discretionary Time program to catch the potential synchrotron radiation associated with the ejecta-CSM interaction. Multi-epoch observations were conducted using ALMA band 6 at +8, +13, and +17 days after the discovery. The data show non-detections at the position of SN 2024ggi with a 3sigma upper limit of less than 0.15 mJy, corresponding to a luminosity of approximately 8*10^24 erg/s/Hz. In this paper, we leverage the non-detections to place constraints on the properties of CSM surrounding SN 2024ggi. We investigate both the Wind and Eruptive models for the radial distribution of CSM, assuming a constant mass-loss rate in the Wind model and a distance-variant mass-loss rate in the Eruptive model. The derived CSM distribution for the Wind model does not align with the early-time spectral features, while the ALMA observations suggest a mass-loss rate of ~ 5*10^-3 Msun/year for the Eruptive model. Conducting multi-epoch millimeter/submillimeter observations shortly after the explosion, with a cadence of a few days, could offer a promising opportunity to capture the observable signature of the Eruptive model.
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Submitted 27 December, 2024; v1 submitted 15 December, 2024;
originally announced December 2024.
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The classification of real and bogus transients using active learning and semi-supervised learning
Authors:
Yating Liu,
Lulu Fan,
Lei Hu,
Junqiang Lu,
Yan Lu,
Zelin Xu,
Jiazheng Zhu,
Haochen Wang,
Xu Kong
Abstract:
Deep-learning-based methods have been favored in astrophysics owing to their adaptability and remarkable performance and have been applied to the task of the classification of real and bogus transients. Different from most existing approaches which necessitate massive yet expensive annotated data, We aim to leverage training samples with only 1000 labels available to discover real sources that var…
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Deep-learning-based methods have been favored in astrophysics owing to their adaptability and remarkable performance and have been applied to the task of the classification of real and bogus transients. Different from most existing approaches which necessitate massive yet expensive annotated data, We aim to leverage training samples with only 1000 labels available to discover real sources that vary in brightness over time in the early stage of the WFST 6-year survey. Methods. We present a novel deep-learning method that combines active learning and semi-supervised learning to construct a competitive real/bogus classifier. Our method incorporates an active learning stage, where we actively select the most informative or uncertain samples for annotation. This stage aims to achieve higher model performance by leveraging fewer labeled samples, thus reducing annotation costs and improving the overall learning process efficiency. Furthermore, our approach involves a semi-supervised learning stage that exploits the unlabeled data to enhance the model's performance and achieve superior results compared to using only the limited labeled data.
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Submitted 12 December, 2024; v1 submitted 3 December, 2024;
originally announced December 2024.
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Characterization of a peculiar Einstein Probe transient EP240408a: an exotic gamma-ray burst or an abnormal jetted tidal disruption event?
Authors:
B. O'Connor,
D. Pasham,
I. Andreoni,
J. Hare,
P. Beniamini,
E. Troja,
R. Ricci,
D. Dobie,
J. Chakraborty,
M. Ng,
N. Klingler,
V. Karambelkar,
S. Rose,
S. Schulze,
G. Ryan,
S. Dichiara,
I. Monageng,
D. Buckley,
L. Hu,
G. Srinivasaragavan,
G. Bruni,
T. Cabrera,
S. B. Cenko,
H. van Eerten,
J. Freeburn
, et al. (8 additional authors not shown)
Abstract:
We present the results of our multi-wavelength (X-ray to radio) follow-up campaign of the Einstein Probe transient EP240408a. The initial 10 s trigger displayed bright soft X-ray (0.5-4 keV) radiation with peak luminosity $L_\textrm{X} \gtrsim 10^{49}$ ($10^{50}$) erg s$^{-1}$ for an assumed redshift z>0.5 (2.0). The Neil Gehrels Swift Observatory and Neutron star Interior Composition ExploreR dis…
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We present the results of our multi-wavelength (X-ray to radio) follow-up campaign of the Einstein Probe transient EP240408a. The initial 10 s trigger displayed bright soft X-ray (0.5-4 keV) radiation with peak luminosity $L_\textrm{X} \gtrsim 10^{49}$ ($10^{50}$) erg s$^{-1}$ for an assumed redshift z>0.5 (2.0). The Neil Gehrels Swift Observatory and Neutron star Interior Composition ExploreR discovered a fading X-ray counterpart lasting for $\sim$5 d (observer frame), which showed a long-lived (~4 d) plateau-like emission ($t^{-0.5}$) before a sharp powerlaw decline ($t^{-7}$). The plateau emission was in excess of $L_\textrm{X} \gtrsim 10^{46}$ ($10^{47}$) erg s$^{-1}$ at z>0.5 (2.0). Deep optical and radio observations resulted in non-detections of the transient. Our observations with Gemini South revealed a faint potential host galaxy ($r \approx 24$ AB mag) near the edge of the X-ray localization. The faint candidate host, and lack of other potential hosts ($r \gtrsim 26$ AB mag; $J \gtrsim 23$ AB mag), implies a higher redshift origin (z>0.5), which produces extreme X-ray properties that are inconsistent with many known extragalactic transient classes. In particular, the lack of a bright gamma-ray counterpart, with the isotropic-equivalent energy ($10 - 10,000$ keV) constrained by GECam and Konus-Wind to $E_{γ,\textrm{iso}} \lesssim 4\times10^{51}$ ($6\times10^{52}$) erg at z>0.5 (2.0), conflicts with known gamma-ray bursts (GRBs) of similar X-ray luminosities. We therefore favor a jetted tidal disruption event (TDE) as the progenitor of EP240408a at z>1.0, possibly caused by the disruption of a white dwarf by an intermediate mass black hole. The alternative is that EP240408a may represent a new, previously unknown class of transient.
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Submitted 11 January, 2025; v1 submitted 28 October, 2024;
originally announced October 2024.
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GRB 240529A: A Tale of Two Shocks
Authors:
Tian-Rui Sun,
Jin-Jun Geng,
Jing-Zhi Yan,
You-Dong Hu,
Xue-Feng Wu,
Alberto J. Castro-Tirado,
Chao Yang,
Yi-Ding Ping,
Chen-Ran Hu,
Fan Xu,
Hao-Xuan Gao,
Ji-An Jiang,
Yan-Tian Zhu,
Yongquan Xue,
Ignacio Pérez-García,
Si-Yu Wu,
Emilio Fernández-García,
María D. Caballero-García,
Rubén Sánchez-Ramírez,
Sergiy Guziy,
Ignacio Olivares,
Carlos Jesus Pérez del Pulgar,
A. Castellón,
Sebastián Castillo,
Ding-Rong Xiong
, et al. (44 additional authors not shown)
Abstract:
Thanks to the rapidly increasing time-domain facilities, we are entering a golden era of research on gamma-ray bursts (GRBs). In this Letter, we report our observations of GRB 240529A with the Burst Optical Observer and Transient Exploring System, the 1.5-meter telescope at Observatorio Sierra Nevada, the 2.5-meter Wide Field Survey Telescope of China, the Large Binocular Telescope, and the Telesc…
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Thanks to the rapidly increasing time-domain facilities, we are entering a golden era of research on gamma-ray bursts (GRBs). In this Letter, we report our observations of GRB 240529A with the Burst Optical Observer and Transient Exploring System, the 1.5-meter telescope at Observatorio Sierra Nevada, the 2.5-meter Wide Field Survey Telescope of China, the Large Binocular Telescope, and the Telescopio Nazionale Galileo. The prompt emission of GRB 240529A shows two comparable energetic episodes separated by a quiescence time of roughly 400 s. Combining all available data on the GRB Coordinates Network, we reveal the simultaneous apparent X-ray plateau and optical re-brightening around $10^3-10^4$ s after the burst. Rather than the energy injection from the magnetar as widely invoked for similar GRBs, the multi-wavelength emissions could be better explained as two shocks launched from the central engine separately. The optical peak time and our numerical modeling suggest that the initial bulk Lorentz factor of the later shock is roughly 50, which indicates that the later jet should be accretion-driven and have a higher mass loading than a typical one. The quiescence time between the two prompt emission episodes may be caused by the transition between different accretion states of a central magnetar or black hole, or the fall-back accretion process. A sample of similar bursts with multiple emission episodes in the prompt phase and sufficient follow-up could help to probe the underlying physics of GRB central engines.
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Submitted 26 September, 2024;
originally announced September 2024.
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Extragalactic Magnetar Giant Flare GRB 231115A: Insights from Fermi/GBM Observations
Authors:
Aaron C. Trigg,
Rachael Stewart,
Alex Van Kooten,
Eric Burns,
Matthew G. Baring,
Dmitry D. Frederiks,
Daniela Huppenkothen,
Brendan O'Connor,
Oliver J. Roberts,
Zorawar Wadiasingh,
George Younes,
Narayana Bhat,
Michael S. Briggs,
Malte Busmann,
Adam Goldstein,
Daniel Gruen,
Lei Hu,
Chryssa Kouveliotou,
Michela Negro,
Antonella Palmese,
Arno Riffeser,
Lorenzo Scotton,
Dmitry S. Svinkin,
Peter Veres,
Raphael Zöller
Abstract:
We present the detection and analysis of GRB 231115A, a candidate extragalactic magnetar giant flare (MGF) observed by Fermi/GBM and localized by INTEGRAL to the starburst galaxy M82. This burst exhibits distinctive temporal and spectral characteristics that align with known MGFs, including a short duration and a high peak energy. Gamma-ray analyses reveal significant insights into this burst, sup…
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We present the detection and analysis of GRB 231115A, a candidate extragalactic magnetar giant flare (MGF) observed by Fermi/GBM and localized by INTEGRAL to the starburst galaxy M82. This burst exhibits distinctive temporal and spectral characteristics that align with known MGFs, including a short duration and a high peak energy. Gamma-ray analyses reveal significant insights into this burst, supporting conclusions already established in the literature: our time-resolved spectral studies provide further evidence that GRB 231115A is indeed a MGF. Significance calculations also suggest a robust association with M82, further supported by a high Bayes factor that minimizes the probability of chance alignment with a neutron star merger. Despite extensive follow-up efforts, no contemporaneous gravitational wave or radio emissions were detected. The lack of radio emission sets stringent upper limits on possible radio luminosity. Constraints from our analysis show no fast radio bursts (FRBs) associated with two MGFs. X-ray observations conducted post-burst by Swift/XRT and XMM/Newton provided additional data, though no persistent counterparts were identified. Our study underscores the importance of coordinated multi-wavelength follow-up and highlights the potential of MGFs to enhance our understanding of short GRBs and magnetar activities in the cosmos. Current MGF identification and follow-up implementation are insufficient for detecting expected counterparts; however, improvements in these areas may allow for the recovery of follow-up signals with existing instruments. Future advancements in observational technologies and methodologies will be crucial in furthering these studies.
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Submitted 8 June, 2025; v1 submitted 9 September, 2024;
originally announced September 2024.
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Searching for electromagnetic emission in an AGN from the gravitational wave binary black hole merger candidate S230922g
Authors:
Tomás Cabrera,
Antonella Palmese,
Lei Hu,
Brendan O'Connor,
K. E. Saavik Ford,
Barry McKernan,
Igor Andreoni,
Tomás Ahumada,
Ariel Amsellem,
Malte Busmann,
Peter Clark,
Michael W. Coughlin,
Ekaterine Dadiani,
Veronica Diaz,
Matthew J. Graham,
Daniel Gruen,
Keerthi Kunnumkai,
Jake Postiglione,
Julian S. Sommer,
Francisco Valdes
Abstract:
We carried out long-term monitoring of the LIGO/Virgo/KAGRA binary black hole (BBH) merger candidate S230922g in search of electromagnetic emission from the interaction of the merger remnant with an embedding active galactic nuclei (AGN) accretion disk. Using a dataset primarily composed of wide-field imaging from the Dark Energy Camera (DECam) and supplemented by additional photometric and spectr…
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We carried out long-term monitoring of the LIGO/Virgo/KAGRA binary black hole (BBH) merger candidate S230922g in search of electromagnetic emission from the interaction of the merger remnant with an embedding active galactic nuclei (AGN) accretion disk. Using a dataset primarily composed of wide-field imaging from the Dark Energy Camera (DECam) and supplemented by additional photometric and spectroscopic resources, we searched ~ 70% of the sky area probability for transient phenomena, and discovered 6 counterpart candidates. One especially promising candidate - AT 2023aagj - exhibited temporally varying asymmetric components in spectral broad line regions, a feature potentially indicative of an off-center event such as a BBH merger. This represents the first live search and multiwavelength, photometric, and spectroscopic monitoring of a GW BBH optical counterpart candidate in the disk of an AGN.
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Submitted 13 January, 2025; v1 submitted 15 July, 2024;
originally announced July 2024.
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AT2023lli: A Tidal Disruption Event with Prominent Optical Early Bump and Delayed Episodic X-ray Emission
Authors:
Shifeng Huang,
Ning Jiang,
Jiazheng Zhu,
Yibo Wang,
Tinggui Wang,
Shan-Qin Wang,
Wen-Pei Gan,
En-Wei Liang,
Yu-Jing Qin,
Zheyu Lin,
Lin-Na Xu,
Min-Xuan Cai,
Ji-An Jiang,
Xu Kong,
Jiaxun Li,
Long Li,
Jian-Guo Wang,
Ze-Lin Xu,
Yongquan Xue,
Ye-Fei Yuan,
Jingquan Cheng,
Lulu Fan,
Jie Gao,
Lei Hu,
Weida Hu
, et al. (20 additional authors not shown)
Abstract:
High-cadence, multiwavelength observations have continuously revealed the diversity of tidal disruption events (TDEs), thus greatly advancing our knowledge and understanding of TDEs. In this work, we conducted an intensive optical-UV and X-ray follow-up campaign of TDE AT2023lli, and found a remarkable month-long bump in its UV/optical light curve nearly two months prior to maximum brightness. The…
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High-cadence, multiwavelength observations have continuously revealed the diversity of tidal disruption events (TDEs), thus greatly advancing our knowledge and understanding of TDEs. In this work, we conducted an intensive optical-UV and X-ray follow-up campaign of TDE AT2023lli, and found a remarkable month-long bump in its UV/optical light curve nearly two months prior to maximum brightness. The bump represents the longest separation time from the main peak among known TDEs to date. The main UV/optical outburst declines as $t^{-4.10}$, making it one of the fastest decaying optically selected TDEs. Furthermore, we detected sporadic X-ray emission 30 days after the UV/optical peak, accompanied by a reduction in the period of inactivity. It is proposed that the UV/optical bump could be caused by the self-intersection of the stream debris, whereas the primary peak is generated by the reprocessed emission of the accretion process. In addition, our results suggest that episodic X-ray radiation during the initial phase of decline may be due to the patched obscurer surrounding the accretion disk, a phenomenon associated with the inhomogeneous reprocessing process. The double TDE scenario, in which two stars are disrupted in sequence, is also a possible explanation for producing the observed early bump and main peak. We anticipate that the multicolor light curves of TDEs, especially in the very early stages, and the underlying physics can be better understood in the near future with the assistance of dedicated surveys such as the deep high-cadence survey of the 2.5-meter Wide Field Survey Telescope (WFST).
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Submitted 26 March, 2024; v1 submitted 3 March, 2024;
originally announced March 2024.
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Distinctive GWBs from eccentric inspiraling SMBH binaries with a DM spike
Authors:
Li Hu,
Rong-Gen Cai,
Shao-Jiang Wang
Abstract:
Recent detections of a low-frequency gravitational wave background (GWB) from various pulsar-timing-array (PTA) observations have renewed the interest in the inspiraling supermassive black hole binaries (SMBHBs), whose population is believed to be the most promising candidate with possible generalizations from including either orbital eccentricity or dark matter (DM) spike. In this paper, we show…
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Recent detections of a low-frequency gravitational wave background (GWB) from various pulsar-timing-array (PTA) observations have renewed the interest in the inspiraling supermassive black hole binaries (SMBHBs), whose population is believed to be the most promising candidate with possible generalizations from including either orbital eccentricity or dark matter (DM) spike. In this paper, we show that the inclusion of both can further display distinctive features detectable in future PTA observations. With a typical initial eccentricity $e_0\sim\mathcal{O}(0.1)$ for the inspiraling SMBHBs, even a shallow DM spike can easily drive the orbital eccentricity close to $1$, leaving behind a large turnover eccentricity when GWs begin to dominate the orbital circularization. In particular, the DM spike index $γ_\mathrm{sp}$ universally manifests itself in the characteristic strain by $h_c\sim f^{7/6-γ_\mathrm{sp}/3}$ in the far infrared and features a novel oscillation structure at low frequencies. Future PTA detection of such characteristics would be the smoking gun for the DM spike and even reveal the nature of DM.
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Submitted 5 February, 2025; v1 submitted 21 December, 2023;
originally announced December 2023.
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The environmental dependence of Spitzer dusty Supernovae
Authors:
Lin Xiao,
Tamás Szalai,
Lluís Galbany,
Ori Fox,
Lei Hu,
Maokai Hu,
Yi Yang,
Takashi J. Moriya,
Thallis Pessi,
Zhanwen Han,
Xiaofeng Wang,
Shengyu Yan
Abstract:
Thanks to the mid-infrared capability offered by Spitzer, systematic searches of dust in SNe have been carried out over the past decade. Studies have revealed the presence of a substantial amount of dust over a broad range of SN subtypes. How normal SNe present mid-IR excess at later time and turn out to be dusty SNe can be affected by several factors, such as mass-loss history and envelope struct…
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Thanks to the mid-infrared capability offered by Spitzer, systematic searches of dust in SNe have been carried out over the past decade. Studies have revealed the presence of a substantial amount of dust over a broad range of SN subtypes. How normal SNe present mid-IR excess at later time and turn out to be dusty SNe can be affected by several factors, such as mass-loss history and envelope structure of progenitors and their explosion environment. All these can be combined and related to their environmental properties. A systematic analysis of SNe that exploded under a dusty environment could be of critical importance to measure the properties of the dust-veiled exploding stars, and whether such an intense dust production process is associated with the local environment. In this work, we firstly use the IFS data to study the environmental properties of dusty SNe compared to those of normal ones, and analyze correlations between the environmental properties and their dust parameters. We find that dusty SNe have a larger proportion located at higher SFR regions compared to the normal types. The occurrence of dusty SNe is less dependent on metallicity, with the oxygen abundance spanning from subsolar to oversolar metallicity. We also find the host extinction of dusty SNe scatters a lot, with about 40% of dusty SN located at extremely low extinction environments, and another 30% of them with considerably high host extinction of E(B-V)>0.6 mag.
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Submitted 1 December, 2023;
originally announced December 2023.
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A Shock Flash Breaking Out of a Dusty Red Supergiant
Authors:
Gaici Li,
Maokai Hu,
Wenxiong Li,
Yi Yang,
Xiaofeng Wang,
Shengyu Yan,
Lei Hu,
Jujia Zhang,
Yiming Mao,
Henrik Riise,
Xing Gao,
Tianrui Sun,
Jialian Liu,
Dingrong Xiong,
Lifan Wang,
Jun Mo,
Abdusamatjan Iskandar,
Gaobo Xi,
Danfeng Xiang,
Lingzhi Wang,
Guoyou Sun,
Keming Zhang,
Jian Chen,
Weili Lin,
Fangzhou Guo
, et al. (19 additional authors not shown)
Abstract:
Shock breakout emission is light that arises when a shockwave, generated by core-collapse explosion of a massive star, passes through its outer envelope. Hitherto, the earliest detection of such a signal was at several hours after the explosion, though a few others had been reported. The temporal evolution of early light curves should reveal insights into the shock propagation, including explosion…
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Shock breakout emission is light that arises when a shockwave, generated by core-collapse explosion of a massive star, passes through its outer envelope. Hitherto, the earliest detection of such a signal was at several hours after the explosion, though a few others had been reported. The temporal evolution of early light curves should reveal insights into the shock propagation, including explosion asymmetry and environment in the vicinity, but this has been hampered by the lack of multiwavelength observations. Here we report the instant multiband observations of a type II supernova (SN 2023ixf) in the galaxy M101 (at a distance of 6.85+/-0.15 Mpc), beginning at about 1.4 hours after the explosion. The exploding star was a red supergiant with a radius of about 440 solar radii. The light curves evolved rapidly, on timescales of 1-2 hours, and appeared unusually fainter and redder than predicted by models within the first few hours, which we attribute to an optically thick dust shell before it was disrupted by the shockwave. We infer that the breakout and perhaps the distribution of the surrounding dust were not spherically symmetric.
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Submitted 1 April, 2024; v1 submitted 24 November, 2023;
originally announced November 2023.
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Newly Formed Dust within the Circumstellar Environment of SNIa-CSM 2018evt
Authors:
Lingzhi Wang,
Maokai Hu,
Lifan Wang,
Yi Yang,
Jiawen Yang,
Haley Gomez,
Sijie Chen,
Lei Hu,
Ting-Wan Chen,
Jun Mo,
Xiaofeng Wang,
Dietrich Baade,
Peter Hoeflich,
J. Craig Wheeler,
Giuliano Pignata,
Jamison Burke,
Daichi Hiramatsu,
D. Andrew Howell,
Curtis McCully,
Craig Pellegrino,
Lluís Galbany,
Eric Y. Hsiao,
David J. Sand,
Jujia Zhang,
Syed A Uddin
, et al. (22 additional authors not shown)
Abstract:
Dust associated with various stellar sources in galaxies at all cosmic epochs remains a controversial topic, particularly whether supernovae (SNe) play an important role in dust production. We report evidence of dust formation in the cold, dense shell behind the ejecta-circumstellar medium (CSM) interaction in the Type Ia-CSM SN 2018evt three years after the explosion, characterized by a rise in t…
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Dust associated with various stellar sources in galaxies at all cosmic epochs remains a controversial topic, particularly whether supernovae (SNe) play an important role in dust production. We report evidence of dust formation in the cold, dense shell behind the ejecta-circumstellar medium (CSM) interaction in the Type Ia-CSM SN 2018evt three years after the explosion, characterized by a rise in the mid-infrared (MIR) emission accompanied by an accelerated decline in the optical radiation of the SN. Such a dust-formation picture is also corroborated by the concurrent evolution of the profiles of the Ha emission line. Our model suggests enhanced CSM dust concentration at increasing distances from the SN as compared to what can be expected from the density profile of the mass loss from a steady stellar wind. By the time of the last MIR observations at day +1041, a total amount of 1.2+-0.2x10^{-2} Msun of new dust has been formed by SN 2018evt, making SN 2018evt one of the most prolific dust factories among SNe with evidence of dust formation. The unprecedented witness of the intense production procedure of dust may shed light on the perceptions of dust formation in cosmic history.
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Submitted 8 January, 2024; v1 submitted 23 October, 2023;
originally announced October 2023.
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Constraining the spatial curvature of the local Universe with deep learning
Authors:
Liang Liu,
Li-Juan Hu,
Li Tang,
Ying Wu
Abstract:
We use the distance sum rule (DSR) method to constrain the spatial curvature of the Universe with a large sample of 161 strong gravitational lensing (SGL) systems, whose distances are calibrated from the Pantheon compilation of type Ia supernovae (SNe Ia) using deep learning. To investigate the possible influence of mass model of the lens galaxy on constraining the curvature parameter $Ω_k$, we co…
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We use the distance sum rule (DSR) method to constrain the spatial curvature of the Universe with a large sample of 161 strong gravitational lensing (SGL) systems, whose distances are calibrated from the Pantheon compilation of type Ia supernovae (SNe Ia) using deep learning. To investigate the possible influence of mass model of the lens galaxy on constraining the curvature parameter $Ω_k$, we consider three different lens models. Results show that a flat Universe is supported in the singular isothermal sphere (SIS) model with the parameter $Ω_k=0.049^{+0.147}_{-0.125}$. While in the power-law (PL) model, a closed Universe is preferred at $\sim 3σ$ confidence level, with the parameter $Ω_k=-0.245^{+0.075}_{-0.071}$. In extended power-law (EPL) model, the 95$\%$ confidence level upper limit of $Ω_k$ is $<0.011$. As for the parameters of the lens models, constrains on the three models indicate that the mass profile of the lens galaxy could not be simply described by the standard SIS model.
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Submitted 20 September, 2023;
originally announced September 2023.
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Differencing and Coadding JWST Images with Matched Point Spread Function
Authors:
Lei Hu,
Lifan Wang
Abstract:
We present an algorithm to derive difference images for data taken with the JWST with matched point-spread functions (PSFs). It is based on the saccadic fast Fourier transform (SFFT) method but with revisions to accommodate the rotations and spatial variations of the PSFs. It allows for spatially varying kernels in B-spline form with separately controlled photometric scaling and Tikhonov kernel re…
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We present an algorithm to derive difference images for data taken with the JWST with matched point-spread functions (PSFs). It is based on the saccadic fast Fourier transform (SFFT) method but with revisions to accommodate the rotations and spatial variations of the PSFs. It allows for spatially varying kernels in B-spline form with separately controlled photometric scaling and Tikhonov kernel regularization for harnessing the ultimate fitting flexibility. We present this method using the JWST/NIRCam images of galaxy cluster Abell 2744 acquired in JWST Cycle 1 as the test data. The algorithm can be useful for time-domain source detection and differential photometry with the JWST. It can also coadd images of multiple exposures taken at different field orientations. The coadded images preserve the sharpness of the central cores of the PSFs, and the positions and shapes of the objects are matched precisely with B-splines across the field.
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Submitted 28 April, 2024; v1 submitted 16 September, 2023;
originally announced September 2023.
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Magnetar emergence in a peculiar gamma-ray burst from a compact star merger
Authors:
H. Sun,
C. -W. Wang,
J. Yang,
B. -B. Zhang,
S. -L. Xiong,
Y. -H. I. Yin,
Y. Liu,
Y. Li,
W. -C. Xue,
Z. Yan,
C. Zhang,
W. -J. Tan,
H. -W. Pan,
J. -C. Liu,
H. -Q. Cheng,
Y. -Q. Zhang,
J. -W. Hu,
C. Zheng,
Z. -H. An,
C. Cai,
Z. -M. Cai,
L. Hu,
C. Jin,
D. -Y. Li,
X. -Q. Li
, et al. (20 additional authors not shown)
Abstract:
The central engine that powers gamma-ray bursts (GRBs), the most powerful explosions in the universe, is still not identified. Besides hyper-accreting black holes, rapidly spinning and highly magnetized neutron stars, known as millisecond magnetars, have been suggested to power both long and short GRBs. The presence of a magnetar engine following compact star mergers is of particular interest as i…
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The central engine that powers gamma-ray bursts (GRBs), the most powerful explosions in the universe, is still not identified. Besides hyper-accreting black holes, rapidly spinning and highly magnetized neutron stars, known as millisecond magnetars, have been suggested to power both long and short GRBs. The presence of a magnetar engine following compact star mergers is of particular interest as it would provide essential constraints on the poorly understood equation of state for neutron stars. Indirect indications of a magnetar engine in these merger sources have been observed in the form of plateau features present in the X-ray afterglow light curves of some short GRBs. Additionally, some X-ray transients lacking gamma-ray bursts (GRB-less) have been identified as potential magnetar candidates originating from compact star mergers. Nevertheless, smoking gun evidence is still lacking for a magnetar engine in short GRBs, and the associated theoretical challenges have been raised. Here we present a comprehensive analysis of the broad-band prompt emission data of a peculiar, very bright GRB 230307A. Despite its apparently long duration, the prompt emission and host galaxy properties are consistent with a compact star merger origin, as suggested by its association with a kilonova. Intriguingly, an extended X-ray emission component shows up as the $γ$-ray emission dies out, signifying the likely emergence of a magnetar central engine. We also identify an achromatic temporal break in the high-energy band during the prompt emission phase, which was never observed in previous bursts and reveals a narrow jet with half opening angle of approximately $\sim 3.4^\circ (R_{GRB}/10^{15}~{cm})^{-1/2}$, where $R_{GRB}$ is the GRB prompt emission radius.
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Submitted 21 November, 2024; v1 submitted 11 July, 2023;
originally announced July 2023.
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The Stellar Abundances and Galactic Evolution Survey (SAGES) -- -- I. General Description and the First Data Release (DR1)
Authors:
Zhou Fan,
Gang Zhao,
Wei Wang,
Jie Zheng,
Jingkun Zhao,
Chun Li,
Yuqin Chen,
Haibo Yuan,
Haining Li,
Kefeng Tan,
Yihan Song,
Fang Zuo,
Yang Huang,
Ali Luo,
Ali Esamdin,
Lu Ma,
Bin Li,
Nan Song,
Frank Grupp,
Haibin Zhao,
Shuhrat A. Ehgamberdiev,
Otabek A. Burkhonov,
Guojie Feng,
Chunhai Bai,
Xuan Zhang
, et al. (13 additional authors not shown)
Abstract:
The Stellar Abundances and Galactic Evolution Survey (SAGES) of the northern sky is a specifically-designed multi-band photometric survey aiming to provide reliable stellar parameters with accuracy comparable to those from low-resolution optical spectra. It was carried out with the 2.3-m Bok telescope of Steward Observatory and three other telescopes. The observations in the $u_s$ and $v_s$ passba…
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The Stellar Abundances and Galactic Evolution Survey (SAGES) of the northern sky is a specifically-designed multi-band photometric survey aiming to provide reliable stellar parameters with accuracy comparable to those from low-resolution optical spectra. It was carried out with the 2.3-m Bok telescope of Steward Observatory and three other telescopes. The observations in the $u_s$ and $v_s$ passband produced over 36,092 frames of images in total, covering a sky area of $\sim9960$ degree$^2$. The median survey completeness of all observing fields for the two bands are of $u_{\rm s}=20.4$ mag and $v_s=20.3$ mag, respectively, while the limiting magnitudes with signal-to-noise ratio (S/N) of 100 are $u_s\sim17$ mag and $v_s\sim18$ mag, correspondingly. We combined our catalog with the data release 1 (DR1) of the first of Panoramic Survey Telescope And Rapid Response System (Pan-STARRS1, PS1) catalog, and obtained a total of 48,553,987 sources which have at least one photometric measurement in each of the SAGES $u_s$ and $v_s$ and PS1 $grizy$ passbands, which is the DR1 of SAGES and it will be released in our paper. We compare our $gri$ point-source photometry with those of PS1 and found an RMS scatter of $\sim2$% in difference of PS1 and SAGES for the same band. We estimated an internal photometric precision of SAGES to be on the order of $\sim1$%. Astrometric precision is better than $0^{\prime\prime}.2$ based on comparison with the DR1 of Gaia mission. In this paper, we also describe the final end-user database, and provide some science applications.
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Submitted 28 June, 2023; v1 submitted 27 June, 2023;
originally announced June 2023.
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Sciences with the 2.5-meter Wide Field Survey Telescope (WFST)
Authors:
WFST Collaboration,
Tinggui Wang,
Guilin Liu,
Zhenyi Cai,
Jinjun Geng,
Min Fang,
Haoning He,
Ji-an Jiang,
Ning Jiang,
Xu Kong,
Bin Li,
Ye Li,
Wentao Luo,
Zhizheng Pan,
Xuefeng Wu,
Ji Yang,
Jiming Yu,
Xianzhong Zheng,
Qingfeng Zhu,
Yi-Fu Cai,
Yuanyuan Chen,
Zhiwei Chen,
Zigao Dai,
Lulu Fan,
Yizhong Fan
, et al. (38 additional authors not shown)
Abstract:
The Wide Field Survey Telescope (WFST) is a dedicated photometric surveying facility being built jointly by the University of Science and Technology of China and the Purple Mountain Observatory. It is equipped with a 2.5-meter diameter primary mirror, an active optics system, and a mosaic CCD camera with 0.73 gigapixels on the primary focal plane for high-quality image capture over an FOV of 6.5-s…
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The Wide Field Survey Telescope (WFST) is a dedicated photometric surveying facility being built jointly by the University of Science and Technology of China and the Purple Mountain Observatory. It is equipped with a 2.5-meter diameter primary mirror, an active optics system, and a mosaic CCD camera with 0.73 gigapixels on the primary focal plane for high-quality image capture over an FOV of 6.5-square-degree. It is anticipated that WFST will be set up at the Lenghu site in the summer of 2023 and begin to observe the northern sky in four optical bands (u, g, r, and i) with a range of cadences, from hourly/daily in the Deep High-Cadence Survey (DHS) program to semiweekly in the Wide-Field Survey (WFS) program, three months later. During a photometric night, a nominal 30 s exposure in the WFS program will reach a depth of 22.27, 23.32, 22.84, and 22.31 (AB magnitudes) in these four bands, respectively, allowing for the detection of a tremendous amount of transients in the low-z universe and a systematic investigation of the variability of Galactic and extragalactic objects. In the DHS program, intranight 90 s exposures as deep as 23 (u) and 24 mag (g), in combination with target of opportunity follow-ups, will provide a unique opportunity to explore energetic transients in demand for high sensitivities, including the electromagnetic counterparts of gravitational wave events, supernovae within a few hours of their explosions, tidal disruption events and fast, luminous optical transients even beyond a redshift of unity. In addition, the final 6-year co-added images, anticipated to reach g=25.8 mag in WFS or 1.5 mags deeper in DHS, will be of fundamental importance to general Galactic and extragalactic science. The highly uniform legacy surveys of WFST will serve as an indispensable complement to those of LSST that monitor the southern sky.
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Submitted 14 September, 2023; v1 submitted 13 June, 2023;
originally announced June 2023.
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Point-like sources among z>11 galaxy candidates: contaminants due to supernovae at high redshifts?
Authors:
Haojing Yan,
Lifan Wang,
Zhiyuan Ma,
Lei Hu
Abstract:
The recent searches for z>11 galaxies using the James Webb Space Telescope have resulted in an unexpectedly high number of candidate objects, which imply at least an order of magnitude higher number density of z>11 galaxies than the previously favored predictions. A question has risen whether there are some new types of contaminants among these candidates. The candidate sample of Yan et al. (2023a…
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The recent searches for z>11 galaxies using the James Webb Space Telescope have resulted in an unexpectedly high number of candidate objects, which imply at least an order of magnitude higher number density of z>11 galaxies than the previously favored predictions. A question has risen whether there are some new types of contaminants among these candidates. The candidate sample of Yan et al. (2023a), totalling 87 dropouts, is the largest one, and we notice that a number of these candidates are point-like. We hypothesize that the point-source dropouts could be supernovae at high redshifts. Further investigation shows that most of their spectral energy distributions indeed can be explained by supernovae at various redshifts from z ~ 1--15, which lends support to this hypothesis. Attributing such point-source dropouts to supernova contamination cannot eliminate the tension, however, because they only account for ~10% of the Yan et al.'s sample. On the other hand, the discovery of "contaminant" supernovae at z>3 will have a series of important implications. Ironically, the existence of supernovae at $z>10$ would still imply that the previously favored picture of early galaxy formation severely underestimates the global star formation rate density such redshifts. Multiple-epoch JWST imaging will be the simplest and yet the most efficient way to further test this hypothesis.
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Submitted 30 March, 2023; v1 submitted 23 January, 2023;
originally announced January 2023.
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Prospects of Searching for Type Ia Supernovae with 2.5-m Wide Field Survey Telescope
Authors:
Maokai Hu,
Lei Hu,
Ji-an Jiang,
Lin Xiao,
Lulu Fan,
Junjie Wei,
Xuefeng Wu
Abstract:
Type Ia Supernovae (SNe Ia) are the thermonuclear explosion of a carbon-oxygen white dwarf (WD) and are well-known as a distance indicator. However, it is still unclear how WDs increase their mass near the Chandrasekhar limit and how the thermonuclear runaway happens. The observational clues associated with these open questions, such as the photometric data within hours to days since the explosion…
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Type Ia Supernovae (SNe Ia) are the thermonuclear explosion of a carbon-oxygen white dwarf (WD) and are well-known as a distance indicator. However, it is still unclear how WDs increase their mass near the Chandrasekhar limit and how the thermonuclear runaway happens. The observational clues associated with these open questions, such as the photometric data within hours to days since the explosion, are scarce. Thus, an essential way is to discover SNe Ia at specific epochs with optimal surveys. The 2.5-m Wide Field Survey Telescope (WFST) is an upcoming survey facility deployed in western China. In this paper, we assess the detecability of SNe Ia with mock observations of WFST. Followed by the volumetric rate, we generate a spectral series of SNe Ia based on a data-based model and introduce the line-of-sight extinction to calculate the brightness from the observer. By comparing with the detection limit of WFST, which is affected by the observing conditions, we can count the number of SNe Ia discovered by mock WFST observations. We expect that WFST can find more than $3.0\times10^{4}$ pre-maximum SNe Ia within one-year running. In particular, WFST could discover about 45 bright SNe Ia, 99 early-phase SNe Ia, or $1.1\times10^{4}$ well-observed SNe Ia with the hypothesized Wide, Deep, or Medium mode, respectively, suggesting WFST will be an influential facility in time-domain astronomy.
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Submitted 22 December, 2022;
originally announced December 2022.
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Deep Drilling in the Time Domain with DECam: Survey Characterization
Authors:
Melissa L. Graham,
Robert A. Knop,
Thomas Kennedy,
Peter E. Nugent,
Eric Bellm,
Márcio Catelan,
Avi Patel,
Hayden Smotherman,
Monika Soraisam,
Steven Stetzler,
Lauren N. Aldoroty,
Autumn Awbrey,
Karina Baeza-Villagra,
Pedro H. Bernardinelli,
Federica Bianco,
Dillon Brout,
Riley Clarke,
William I. Clarkson,
Thomas Collett,
James R. A. Davenport,
Shenming Fu,
John E. Gizis,
Ari Heinze,
Lei Hu,
Saurabh W. Jha
, et al. (19 additional authors not shown)
Abstract:
This paper presents a new optical imaging survey of four deep drilling fields (DDFs), two Galactic and two extragalactic, with the Dark Energy Camera (DECam) on the 4 meter Blanco telescope at the Cerro Tololo Inter-American Observatory (CTIO). During the first year of observations in 2021, $>$4000 images covering 21 square degrees (7 DECam pointings), with $\sim$40 epochs (nights) per field and 5…
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This paper presents a new optical imaging survey of four deep drilling fields (DDFs), two Galactic and two extragalactic, with the Dark Energy Camera (DECam) on the 4 meter Blanco telescope at the Cerro Tololo Inter-American Observatory (CTIO). During the first year of observations in 2021, $>$4000 images covering 21 square degrees (7 DECam pointings), with $\sim$40 epochs (nights) per field and 5 to 6 images per night per filter in $g$, $r$, $i$, and/or $z$, have become publicly available (the proprietary period for this program is waived). We describe the real-time difference-image pipeline and how alerts are distributed to brokers via the same distribution system as the Zwicky Transient Facility (ZTF). In this paper, we focus on the two extragalactic deep fields (COSMOS and ELAIS-S1), characterizing the detected sources and demonstrating that the survey design is effective for probing the discovery space of faint and fast variable and transient sources. We describe and make publicly available 4413 calibrated light curves based on difference-image detection photometry of transients and variables in the extragalactic fields. We also present preliminary scientific analysis regarding Solar System small bodies, stellar flares and variables, Galactic anomaly detection, fast-rising transients and variables, supernovae, and active galactic nuclei.
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Submitted 16 November, 2022;
originally announced November 2022.
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The Interaction of Supernova 2018evt with a Substantial Amount of Circumstellar Matter -- An SN1997cy-like Event
Authors:
Yi Yang,
Dietrich Baade,
Peter Hoeflich,
Lifan Wang,
Aleksandar Cikota,
Ting-Wan Chen,
Jamison Burke,
Daichi Hiramatsu,
Craig Pellegrino,
D. Andrew Howell,
Curtis McCully,
Stefano Valenti,
Steve Schulze,
Avishay Gal-Yam,
Lingzhi Wang,
Alexei V. Filippenko,
Keiichi Maeda,
Mattia Bulla,
Yuhan Yao,
Justyn R. Maund,
Ferdinando Patat,
Jason Spyromilio,
J. Craig Wheeler,
Arne Rau,
Lei Hu
, et al. (7 additional authors not shown)
Abstract:
A rare class of supernovae (SNe) is characterized by strong interaction between the ejecta and several solar masses of circumstellar matter (CSM) as evidenced by strong Balmer-line emission. Within the first few weeks after the explosion, they may display spectral features similar to overluminous Type Ia SNe, while at later phase their observation properties exhibit remarkable similarities with so…
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A rare class of supernovae (SNe) is characterized by strong interaction between the ejecta and several solar masses of circumstellar matter (CSM) as evidenced by strong Balmer-line emission. Within the first few weeks after the explosion, they may display spectral features similar to overluminous Type Ia SNe, while at later phase their observation properties exhibit remarkable similarities with some extreme case of Type IIn SNe that show strong Balmer lines years after the explosion. We present polarimetric observations of SN2018evt obtained by the ESO Very Large Telescope from 172 to 219 days after the estimated time of peak luminosity to study the geometry of the CSM. The nonzero continuum polarization decreases over time, suggesting that the mass loss of the progenitor star is aspherical. The prominent H$α$ emission can be decomposed into a broad, time-evolving component and an intermediate-width, static component. The former shows polarized signals, and it is likely to arise from a cold dense shell (CDS) within the region between the forward and reverse shocks. The latter is significantly unpolarized, and it is likely to arise from shocked, fragmented gas clouds in the H-rich CSM. We infer that SN2018evt exploded inside a massive and aspherical circumstellar cloud. The symmetry axes of the CSM and the SN appear to be similar. SN\,2018evt shows observational properties common to events that display strong interaction between the ejecta and CSM, implying that they share similar circumstellar configurations. Our preliminary estimate also suggests that the circumstellar environment of SN2018evt has been significantly enriched at a rate of $\sim0.1$ M$_\odot$ yr$^{-1}$ over a period of $>100$ yr.
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Submitted 8 November, 2022;
originally announced November 2022.
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Artificial Intelligence Assisted Inversion (AIAI): Quantifying the Spectral Features of $^{56}$Ni of Type Ia Supernovae
Authors:
Xingzhuo Chen,
Lifan Wang,
Lei Hu,
Peter J. Brown
Abstract:
Following our previous study of Artificial Intelligence Assisted Inversion (AIAI) of supernova analyses (Chen et al. 2020), we train a set of deep neural networks based on the one-dimensional radiative transfer code TARDIS (Kerzendorf & Sim 2014) to simulate the optical spectra of Type Ia supernovae (SNe Ia) between 10 and 40 days after the explosion. The neural networks are applied to derive the…
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Following our previous study of Artificial Intelligence Assisted Inversion (AIAI) of supernova analyses (Chen et al. 2020), we train a set of deep neural networks based on the one-dimensional radiative transfer code TARDIS (Kerzendorf & Sim 2014) to simulate the optical spectra of Type Ia supernovae (SNe Ia) between 10 and 40 days after the explosion. The neural networks are applied to derive the mass of 56Ni in velocity ranges well above the photosphere for a sample of 153 well-observed SNe Ia. Many SNe have multi-epoch observations for which the decay of the radioactive 56Ni can be tested quantitatively. The 56Ni mass derived from AIAI using the observed spectra as input for the sample is found to agree with the theoretical 56Ni decay rate. The AIAI reveals a spectral signature near 3890 Åwhich can be identified as being produced by multiple Ni II lines between 3950 and 4100 Å. The mass deduced from AIAI is correlated to the light-curve shapes of SNe Ia, with the SNe Ia with broader light curves showing larger 56Ni mass in the envelope. AIAI enables spectral data of SNe to be quantitatively analyzed under theoretical frameworks based on well-defined physical assumptions.
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Submitted 14 November, 2022; v1 submitted 28 October, 2022;
originally announced October 2022.
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Using 1991T/1999aa-like Type Ia Supernovae as Standardizable Candles
Authors:
Jiawen Yang,
Lifan Wang,
Nicholas Suntzeff,
Lei Hu,
Lauren Aldoroty,
Peter J. Brown,
Kevin Krisciunas,
Iair Arcavi,
Jamison Burke,
Lluís Galbany,
Daichi Hiramatsu,
Griffin Hosseinzadeh,
D. Andrew Howell,
Curtis McCully,
Craig Pellegrino,
Stefano Valenti
Abstract:
We present the photometry of 16 91T/99aa-like Type Ia Supernovae (SNe Ia) observed by the Las Cumbres Observatory. We also use an additional set of 21 91T/99aa-like SNe Ia and 87 normal SNe Ia from the literature for an analysis of the standardizability of the luminosity of 91T/99aa-like SNe. We find that 91T/99aa-like SNe are 0.2 mag brighter than normal SNe Ia, even when fully corrected by the l…
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We present the photometry of 16 91T/99aa-like Type Ia Supernovae (SNe Ia) observed by the Las Cumbres Observatory. We also use an additional set of 21 91T/99aa-like SNe Ia and 87 normal SNe Ia from the literature for an analysis of the standardizability of the luminosity of 91T/99aa-like SNe. We find that 91T/99aa-like SNe are 0.2 mag brighter than normal SNe Ia, even when fully corrected by the light curve shapes and colors. The weighted root-mean-square of 91T/99aa-like SNe (with $z_{CMB}>0.01$) Hubble residuals is $0.25\pm0.03$ mag, suggesting that 91T/99aa-like SNe are also excellent relative distance indicators to $\pm$12%. We compare the Hubble residuals with the pseudo-equivalent width (pEW) of Si II $λλ$6355 around the date of maximum brightness. We find that there is a broken linear correlation in between those two measurements for our sample including both 91T/99aa-like and normal SNe Ia. As the $pEW_{max}$(Si II $λλ$6355) increasing, the Hubble residual increases when $pEW_{max}$(Si II $λλ$6355)$<55.6$ Å. However, the Hubble residual stays constant beyond this. Given that 91T/99aa-like SNe possess shallower Si II lines than normal SNe Ia, the linear correlation at $pEW_{max}$(Si II $λλ$6355)$<55.6$ Å can account for the overall discrepancy of Hubble residuals derived from the two subgroups. Such a systematic effect needs to be taken into account when using SNe Ia to measure luminosity distances.
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Submitted 13 September, 2022;
originally announced September 2022.
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An extensive study of blazar broad emission line: Changing-look blazars and Baldwin effect
Authors:
Hubing Xiao,
Junhui Fan,
Zhihao Ouyang,
Liangjun Hu,
Guohai Chen,
Liping Fu,
Shaohua Zhang
Abstract:
It is known that the blazar jet emissions are dominated by non-thermal radiation while the accretion disk jets are normally dominated by thermal emission. In this work, our aim is to study the connection between the two types of emission by investigating the correlation between the blazar emission line intensity property, which embodies the nature of accretion disk, and the $γ$-ray flux property,…
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It is known that the blazar jet emissions are dominated by non-thermal radiation while the accretion disk jets are normally dominated by thermal emission. In this work, our aim is to study the connection between the two types of emission by investigating the correlation between the blazar emission line intensity property, which embodies the nature of accretion disk, and the $γ$-ray flux property, which is the representative of jet emission. We compiled a sample of 656 blazars with available emission line equivalent widths ($EW$), the GeV $γ$-ray flux, and the SED information from the literature. In this work, we found 55 previous BCUs are now identified as FSRQs, and found 52 Changing-look blazars based on their $EW$ and 45 of them are newly confirmed. These Changing-look blazars have a larger accretion ratio (${\dot M}/{\dot M}_{\rm Edd}$) than BL Lac objects. In addition, we suggest that the lower synchrotron peak blazars (LSPs) could be the source of Changing-look blazars because 90.7\% of the Changing-look blazars in this work are confirmed as LSPs. An anti-correlation between $EW$ and continuum intensity, the so-called global Baldwin effect (BEff) has been confirmed. We suggest the steeper global BEff observed for blazar than for radio-quiet active galactic nuclei (RQ-AGNs) is caused by the inverse Compton scattering of broad-emission-line photons. This interpretation is further supported by the positive correlation between the emission line $EW$ and intrinsic inverse Compton luminosity.
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Submitted 22 August, 2022;
originally announced August 2022.
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Antarctic Survey Telescope 3-3: Overview, System Performance and Preliminary Observations at Yaoan, Yunnan
Authors:
Tianrui Sun,
Xiaoyan Li,
Lei Hu,
Kelai Meng,
Zijian Han,
Maokai Hu,
Zhengyang Li,
Haikun Wen,
Fujia Du,
Shihai Yang,
Bozhong Gu,
Xiangyan Yuan,
Yun Li,
Huihui Wang,
Lei Liu,
Zhenxi Zhu,
Xuehai Huang,
Chengming Lei,
Lifan Wang,
Xuefeng Wu
Abstract:
The third Antarctic Survey Telescope array instrument at Dome A in Antarctica, the AST3-3 telescope, has been in commissioning from March 2021. We deployed AST3-3 at the Yaoan astronomical station in Yunnan Province for an automatic time-domain survey and follow-up observations with an optimised observation and protection system. The telescope system of AST3-3 is similar to that of AST3-1 and AST3…
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The third Antarctic Survey Telescope array instrument at Dome A in Antarctica, the AST3-3 telescope, has been in commissioning from March 2021. We deployed AST3-3 at the Yaoan astronomical station in Yunnan Province for an automatic time-domain survey and follow-up observations with an optimised observation and protection system. The telescope system of AST3-3 is similar to that of AST3-1 and AST3-2, except that it is equipped with a 14K~$ \times$~10K QHY411 CMOS camera. AST3-3 has a field of view of $1.65^\circ \times 1.23^\circ$ and is currently using the $g$ band filter. During commissioning at Yaoan, AST3-3 aims to conduct an extragalactic transient survey, coupled with prompt follow-ups of opportunity targets. In this paper, we present the architecture of the AST3-3 automatic observation system. We demonstrate the data processing of observations by representatives SN 2022eyw and GRB 210420B.
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Submitted 13 June, 2022; v1 submitted 7 June, 2022;
originally announced June 2022.
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Pipeline for Antarctic Survey Telescope 3-3 in Yaoan, Yunnan
Authors:
Tianrui Sun,
Lei Hu,
Songbo Zhang,
Xiaoyan Li,
Kelai Meng,
Xuefeng Wu,
Lifan Wang,
A. J. Castro-Tirado
Abstract:
AST3-3 is the third robotic facility of the Antarctic Survey Telescopes (AST3) for transient surveys to be deployed at Dome A, Antarctica. Due to the current pandemic, the telescope has been currently deployed at the Yaoan Observation Station in China, starting the commissioning observation and a transient survey. This paper presents a fully automatic data processing system for AST3-3 observations…
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AST3-3 is the third robotic facility of the Antarctic Survey Telescopes (AST3) for transient surveys to be deployed at Dome A, Antarctica. Due to the current pandemic, the telescope has been currently deployed at the Yaoan Observation Station in China, starting the commissioning observation and a transient survey. This paper presents a fully automatic data processing system for AST3-3 observations. The transient detection pipeline uses state-of-the-art image subtraction techniques optimised for GPU devices. Image reduction and transient photometry are accelerated by concurrent task methods. Our Python-based system allows for transient detection from wide-field data in a real-time and accurate way. A ResNet-based rotational-invariant neural network was employed to classify the transient candidates. As a result, the system enables auto-generation of transients and their light curves.
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Submitted 10 May, 2022;
originally announced May 2022.
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Gravitationally Lensed Orphan Afterglows of Gamma-Ray Bursts
Authors:
Hao-Xuan Gao,
Jin-Jun Geng,
Lei Hu,
Mao-Kai Hu,
Guang-Xuan Lan,
Chen-Ming Chang,
Song-Bo Zhang,
Xiao-Li Zhang,
Yong-Feng Huang,
Xue-Feng Wu
Abstract:
The cosmological nature of gamma-ray bursts (GRBs) implies that a small portion of them could be gravitationally lensed by foreground objects during their propagation. The gravitational lensing effect on the GRB prompt emission and on-axis afterglows has been discussed, and some candidates have been found in the literature. In this work, considering the high detection rate of GRB orphan afterglows…
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The cosmological nature of gamma-ray bursts (GRBs) implies that a small portion of them could be gravitationally lensed by foreground objects during their propagation. The gravitational lensing effect on the GRB prompt emission and on-axis afterglows has been discussed, and some candidates have been found in the literature. In this work, considering the high detection rate of GRB orphan afterglows in future wide-field survey era, we investigate the gravitationally lensed orphan afterglows in view of three lens models, i.e., the point-mass model, the singular isothermal sphere model, and the Chang-Refsdal model. The structure of the GRB jet itself is also incorporated in calculating the lensed afterglow light curves. It is found that lensed optical/X-ray orphan afterglows in principle could be diagnosed through their temporal characteristics, and the optical band is the best band to observe the galaxy-lensed orphan afterglows. Moreover, the event rate for galaxy-lensed orphan afterglows is estimated to be $\lesssim$ 1.8 $\text{yr}^{-1}$ for the whole sky. If most orphan afterglows could be identified (from other transients in the survey data), the optimistic detection rates of the 2.5m Wide Field Survey Telescope of China and 8.4m Vera Rubin Observatory Legacy Survey of Space and Time for galaxy-lensed orphan afterglows in the optical band are $\lesssim$ 0.01$\sim$0.02 $\text{yr}^{-1}$ and $\lesssim$ 0.04$\sim$0.08 $\text{yr}^{-1}$, respectively.
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Submitted 10 August, 2022; v1 submitted 7 April, 2022;
originally announced April 2022.
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A low-threshold ultrahigh-energy neutrino search with the Askaryan Radio Array
Authors:
P. Allison,
S. Archambault,
J. J. Beatty,
D. Z. Besson,
A. Bishop,
C. C. Chen,
C. H. Chen,
P. Chen,
Y. C. Chen,
B. A. Clark,
W. Clay,
A. Connolly,
L. Cremonesi,
P. Dasgupta,
J. Davies,
S. de Kockere,
K. D. de Vries,
C. Deaconu,
M. A. DuVernois,
J. Flaherty,
E. Friedman,
R. Gaior,
J. Hanson,
N. Harty,
B. Hendricks
, et al. (55 additional authors not shown)
Abstract:
In the pursuit of the measurement of the still-elusive ultrahigh-energy (UHE) neutrino flux at energies of order EeV, detectors using the in-ice Askaryan radio technique have increasingly targeted lower trigger thresholds. This has led to improved trigger-level sensitivity to UHE neutrinos. Working with data collected by the Askaryan Radio Array (ARA), we search for neutrino candidates at the lowe…
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In the pursuit of the measurement of the still-elusive ultrahigh-energy (UHE) neutrino flux at energies of order EeV, detectors using the in-ice Askaryan radio technique have increasingly targeted lower trigger thresholds. This has led to improved trigger-level sensitivity to UHE neutrinos. Working with data collected by the Askaryan Radio Array (ARA), we search for neutrino candidates at the lowest threshold achieved to date, leading to improved analysis-level sensitivities. A neutrino search on a data set with 208.7~days of livetime from the reduced-threshold fifth ARA station is performed, achieving a 68\% analysis efficiency over all energies on a simulated mixed-composition neutrino flux with an expected background of $0.10_{-0.04}^{+0.06}$ events passing the analysis. We observe one event passing our analysis and proceed to set a neutrino flux limit using a Feldman-Cousins construction. We show that the improved trigger-level sensitivity can be carried through an analysis, motivating the Phased Array triggering technique for use in future radio-detection experiments. We also include a projection using all available data from this detector. Finally, we find that future analyses will benefit from studies of events near the surface to fully understand the background expected for a large-scale detector.
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Submitted 14 February, 2022;
originally announced February 2022.
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Spectroscopic Studies of Type Ia Supernovae Using LSTM Neural Networks
Authors:
Lei Hu,
Xingzhuo Chen,
Lifan Wang
Abstract:
We present a data-driven method based on long short-term memory (LSTM) neural networks to analyze spectral time series of Type Ia supernovae (SNe Ia). The dataset includes 3091 spectra from 361 individual SNe Ia. The method allows for accurate reconstruction of the spectral sequence of an SN Ia based on a single observed spectrum around maximum light. The precision of the spectral reconstruction i…
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We present a data-driven method based on long short-term memory (LSTM) neural networks to analyze spectral time series of Type Ia supernovae (SNe Ia). The dataset includes 3091 spectra from 361 individual SNe Ia. The method allows for accurate reconstruction of the spectral sequence of an SN Ia based on a single observed spectrum around maximum light. The precision of the spectral reconstruction increases with more spectral time coverages, but the significant benefit of multiple epoch data at around optical maximum is only evident for observations separated by more than a week. The method shows great power in extracting the spectral information of SNe Ia, and suggests that the most critical information of an SN Ia can be derived from a single spectrum around the optical maximum. The algorithm we have developed is important for the planning of spectroscopic follow-up observations of future SN surveys with the LSST/Rubin and the WFIRST/Roman telescopes.
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Submitted 5 May, 2022; v1 submitted 5 February, 2022;
originally announced February 2022.
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Quantum Noise of Gravitons and Stochastic Force on Geodesic Separation
Authors:
H. T. Cho,
B. L. Hu
Abstract:
In this work we consider the effects of gravitons and their fluctuations on the dynamics of two masses using the Feynman-Vernon influence functional formalism, applied to nonequilibrium quantum field theory and semiclassical stochastic gravity earlier by Calzetta, Hu and Verdaguer [1-3], and most recently, to this problem by Parikh, Wilczek and Zahariade [4-6]. The Hadamard function of the gravito…
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In this work we consider the effects of gravitons and their fluctuations on the dynamics of two masses using the Feynman-Vernon influence functional formalism, applied to nonequilibrium quantum field theory and semiclassical stochastic gravity earlier by Calzetta, Hu and Verdaguer [1-3], and most recently, to this problem by Parikh, Wilczek and Zahariade [4-6]. The Hadamard function of the gravitons yields the noise kernel acting as a stochastic tensorial force in a Langevin equation governing the motion of the separation of the two masses. The fluctuations of the separation due to the graviton noise are then solved for various quantum states including the Minkowski vacuum, thermal, coherent and squeezed states. The previous considerations of Parikh et al. are only for some selected modes of the graviton, while in this work we have included all graviton modes and polarizations. We comment on the possibility of detecting these fluctuations in primordial gravitons using interferometors with long baselines in deep space experiments.
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Submitted 18 April, 2022; v1 submitted 15 December, 2021;
originally announced December 2021.
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Light bending by the cosmological constant
Authors:
Lingyi Hu,
Alan Heavens,
David Bacon
Abstract:
We revisit the question of whether the cosmological constant $Λ$ affects the cosmological gravitational bending of light, by numerical integration of the geodesic equations for a Swiss cheese model consisting of a point mass and a compensated vacuole, in a Friedmann-Robertson-Walker background. We find that there is virtually no dependence of the light bending on the cosmological constant that is…
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We revisit the question of whether the cosmological constant $Λ$ affects the cosmological gravitational bending of light, by numerical integration of the geodesic equations for a Swiss cheese model consisting of a point mass and a compensated vacuole, in a Friedmann-Robertson-Walker background. We find that there is virtually no dependence of the light bending on the cosmological constant that is not already accounted for in the angular diameter distances of the standard lensing equations, plus small modifications that arise because the bending is restricted to a finite region covered by the hole. The residual $Λ$ dependence for a $10^{13}\,M_{\odot}$ lens is at the level of 1 part in $10^7$, and even this might be accounted for by small changes in the hole size evolution as the photon crosses. We therefore conclude that there is no need for modification of the standard cosmological lensing equations in the presence of a cosmological constant.
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Submitted 12 January, 2022; v1 submitted 20 September, 2021;
originally announced September 2021.
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Image Subtraction in Fourier Space
Authors:
Lei Hu,
Lifan Wang,
Xingzhuo Chen,
Jiawen Yang
Abstract:
Image subtraction is essential for transient detection in time-domain astronomy. The point spread function (PSF), photometric scaling, and sky background generally vary with time and across the field-of-view for imaging data taken with ground-based optical telescopes. Image subtraction algorithms need to match these variations for the detection of flux variability. An algorithm that can be fully p…
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Image subtraction is essential for transient detection in time-domain astronomy. The point spread function (PSF), photometric scaling, and sky background generally vary with time and across the field-of-view for imaging data taken with ground-based optical telescopes. Image subtraction algorithms need to match these variations for the detection of flux variability. An algorithm that can be fully parallelized is highly desirable for future time-domain surveys. Here we show the Saccadic Fast Fourier Transform (SFFT) algorithm for image differencing. SFFT uses $δ$-function basis for kernel decomposition, and the image subtraction is performed in Fourier Space. This brings about a remarkable improvement of computational performance of about an order of magnitude compared to other published image subtraction codes. SFFT can accommodate the spatial variations in wide-field imaging data, including PSF, photometric scaling, and sky background. However, the flexibility of the $δ$-function basis may also make it more prone to overfitting. The algorithm has been tested extensively in real astronomical data taken by a variety of telescopes. Moreover, the SFFT code allows for the spatial variations of the PSF and sky background to be fitted by spline functions.
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Submitted 24 May, 2022; v1 submitted 20 September, 2021;
originally announced September 2021.