Title :
Laser dynamics under frequency-shifted optical feedback with random phase
Author :
NikolicÌ, M. ; Taimre, T. ; Tucker, J.R. ; Yah Leng Lim ; Bertling, K. ; RakicÌ, A.D.
Author_Institution :
Sch. of Inf. Technol. & Electr. Eng., Univ. of Queensland, Brisbane, QLD, Australia
fDate :
September 11 2014
Abstract :
The rate-equation model for a semiconductor laser under optical feedback is a useful tool for studying complex laser dynamics. Optical feedback from scatterers suspended in fluid flow and rough bodies in motion consists of many, spectrally close, Doppler-shifted frequency components with random phase. How this type of feedback is included in the well-established Lang and Kobayashi model is clarified, resulting in simulated results that agree well with the experiment in both time and frequency domains. Equipped with this model, the dynamic effects of laser feedback systems measuring flow or rough targets in motion may be studied numerically.
Keywords :
flow measurement; laser feedback; measurement by laser beam; semiconductor lasers; two-phase flow; Lang-Kobayashi model; flow measurement; fluid flow; frequency-shifted optical feedback; laser dynamics; random phase; rate-equation model; rough bodies; semiconductor laser; spectrally close Doppler-shifted frequency components;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2014.2573
