Dynamic-grating-assisted energy transfer between ultrashort laser pulses in lithium niobate

Abstract: Energy redistribution between two subpicosecond laser pulses of 2.5 eV photon energy is observed and studied in congruent, nominally undoped LiNbO, aiming to reveal the underlying coupling mechanisms. The dependences of pulse amplification on intensity, frequency detuning and pulse duration point to two different contributions of coupling, both based on self-diffraction from a recorded dynamic grating. The first one is caused by a difference in pulse intensities (transient energy transfer) while the second one… Show more

“…Evidently, it decreases with increasing pulse duration down to a value of for a 1250 fs pulse. Moreover, pulse duration‐dependent studies on the linear chirp parameter compare well with XFROG‐scans performed in bulk crystals, [ 38 ] thereby highlighting the equivalence of both media and methods. We like to note that the analysis of our data in the given configuration is limited by the possibility to determine the slope in the spectra of Figure 3b with sufficient precision.…”

Time‐Resolved Nonlinear Diffuse Femtosecond‐Pulse Reflectometry Using Lithium Niobate Nanoparticles with Two Pulses of Different Colors

“…Evidently, it decreases with increasing pulse duration down to a value of for a 1250 fs pulse. Moreover, pulse duration‐dependent studies on the linear chirp parameter compare well with XFROG‐scans performed in bulk crystals, [ 38 ] thereby highlighting the equivalence of both media and methods. We like to note that the analysis of our data in the given configuration is limited by the possibility to determine the slope in the spectra of Figure 3b with sufficient precision.…”

Time‐Resolved Nonlinear Diffuse Femtosecond‐Pulse Reflectometry Using Lithium Niobate Nanoparticles with Two Pulses of Different Colors