Experimental Scaling of Diffraction Efficiency in Laser-Induced Plasma Gratings
Authors:
M. M. Wang,
V. M. Perez-Ramirez,
N. M. Fasano,
K. Ou,
S. Cao,
V. Dewan,
A. M. Giakas,
A. Morozov,
P. Michel,
M. R. Edwards,
J. M. Mikhailova
Abstract:
We demonstrate efficient diffraction of intense ultrashort laser pulses using optical field ionization plasma-neutral gratings formed by spatially patterned gas ionization in the interference field of two femtosecond pump pulses. The resulting transient refractive index modulation is shown to be persistent over tens of picoseconds at a 10 Hz repetition rate. An intense femtosecond signal pulse is…
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We demonstrate efficient diffraction of intense ultrashort laser pulses using optical field ionization plasma-neutral gratings formed by spatially patterned gas ionization in the interference field of two femtosecond pump pulses. The resulting transient refractive index modulation is shown to be persistent over tens of picoseconds at a 10 Hz repetition rate. An intense femtosecond signal pulse is diffracted by the plasma structure with an average single-order efficiency of up to 35$\%$ at intensities exceeding $ 10^{14}\text{ W/cm}^2$. The diffraction efficiency increases with pump energy, scales with grating aperture, and is optimized at a specific grating length in agreement with coupled-mode theory for periodic media. These results demonstrate the scalability and high damage threshold of photonic plasma structures crucial for controlling ultrashort intense laser beams, with potential applicability to multi-petawatt systems.
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Submitted 17 March, 2026;
originally announced March 2026.