Analytical Description of Backward Stimulated Raman Scattering Short Pulse Gain factor for Gaussian and Square Pulses

TL;DR

This paper analytically compares the growth factors of backward stimulated Raman scattering for Gaussian and square laser pulses, revealing how pulse shape and temporal structure influence instability growth in ultrashort pulse regimes.

Contribution

It introduces an analytical method to evaluate B-SRS growth for different pulse shapes, highlighting the impact of temporal intensity profiles on instability development.

Findings

Gaussian and square pulses with equal energy produce similar total B-SRS growth.

Growth rate for square pulses increases linearly with time, while Gaussian pulses follow their intensity profile.

The maximum growth factor depends on the pulse's temporal structure and energy distribution.

Abstract

This work analytically compares the growth of Backward Stimulated Raman Scattering (B-SRS) induced by temporal laser pulses on the order of a few tens of laser cycles or a couple of picoseconds for nominally 10 um wavelength IR pulse with Gaussian versus the constant intensity profile assumed in the original theory, both delivering an equivalent energy. By evaluating the growth factors of these two pulse shapes, we demonstrate that the temporal structure of the laser pulse significantly influences the maximum growth rate of the instability. Specifically, while the growth rate for a square pulse increases linearly with time, the Gaussian pulse resultant growth rate tracks with the temporal intensity profile of the pulse. We utilize the newly calculated total maximum growth that a temporally varying pulse delivers above the B-SRS threshold and then determine the normalized intensity for a pulse that has same duration. and contains the same amount of total energy. We show that these energy equivalent square pulses yield the same total B-SRS growth as the Gaussian pulses.