Nonlinear exceptional-point lasing with ab initio Maxwell– Bloch theory

Author(s)

Benzaouia, Mohammed; Stone, AD; Johnson, Steven G

Abstract

We present a general analysis for finding and characterizing nonlinear exceptional point (EP) lasers above threshold using steady-state ab initio Maxwell–Bloch equations. For a system of coupled slabs, we show that a nonlinear EP is obtained for a given ratio between the external pumps in each resonator and that it is associated with a kink in the output power and lasing frequency, confirming coupled-mode theory predictions. Through numerical linear stability analysis, we confirm that the EP laser can be stable for a large enough inversion relaxation rate. We further show that the EP laser can be characterized by scattering a weak signal off the lasing cavity so that the scattering frequency spectrum exhibits a quartic divergence. Our approach can be applied to arbitrary scatterers with multi-level gain media.

Date issued

2022-12-15

URI

https://hdl.handle.net/1721.1/165268

Department

Massachusetts Institute of Technology. Department of Mathematics

Journal

APL Photonics

Publisher

AIP Publishing

Citation

Mohammed Benzaouia, A. D. Stone, Steven G. Johnson; Nonlinear exceptional-point lasing with ab initio Maxwell–Bloch theory. APL Photonics 1 December 2022; 7 (12): 121303.

Version: Final published version