Ab-initio multimode linewidth theory for arbitrary inhomogeneous laser cavities
Abstract
We present a multimode laser-linewidth theory for arbitrary cavity structures and geometries that contains nearly all previously known effects and also finds new nonlinear and multimode corrections, e.g. a bad-cavity correction to the Henry factor and a multimode Schawlow--Townes relation (each linewidth is proportional to a sum of inverse powers of all lasing modes). Our theory produces a quantitatively accurate formula for the linewidth, with no free parameters, including the full spatial degrees of freedom of the system. Starting with the Maxwell--Bloch equations, we handle quantum and thermal noise by introducing random currents whose correlations are given by the fluctuation--dissipation theorem. We derive coupled-mode equations for the lasing-mode amplitudes and obtain a formula for the linewidths in terms of simple integrals over the steady-state lasing modes.
Cite
@article{arxiv.1502.07268,
title = {Ab-initio multimode linewidth theory for arbitrary inhomogeneous laser cavities},
author = {Adi Pick and Alex Cerjan and David Liu and Alejandro W. Rodriguez and A. Douglas Stone and Yidong D. Chong and Steven G. Johnson},
journal= {arXiv preprint arXiv:1502.07268},
year = {2015}
}
Comments
24 pages, 7 figures