Laser-induced plasma gratings achieve 35% diffraction efficiency for femtosecond pulses, scale with aperture and pump energy, and operate stably above solid-optic damage thresholds for hours.
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Laser-driven plasmas generate attosecond two-photon synchrotron emission from relativistic electrons, yielding correlated photon pairs at rates estimated as alpha squared gamma omega turn.
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Experimental Scaling of Diffraction Efficiency in Laser-Induced Plasma Gratings
Laser-induced plasma gratings achieve 35% diffraction efficiency for femtosecond pulses, scale with aperture and pump energy, and operate stably above solid-optic damage thresholds for hours.
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Attosecond Nonlinear Quantum Electrodynamics in Laser-Driven Plasmas via Two-Photon Synchrotron Emission
Laser-driven plasmas generate attosecond two-photon synchrotron emission from relativistic electrons, yielding correlated photon pairs at rates estimated as alpha squared gamma omega turn.