Comparison of Different Linewidth Measuring Methods for Narrow Linewidth Laser
Copyright policy )Comparison of Different Linewidth Measuring Methods for Narrow Linewidth Laser
We experimentally demonstrate a fiber laser with different linewidths based on self-injection locking (SIL) and the stimulated Brillouin scattering effect. Based on the homemade fiber laser, the error origin, resolution, and applicable range of delayed self-heterodyne interferometry (DSHI), self-correlation envelope linewidth detection (SCELD) and Voigt fitting are investigated numerically and experimentally. The selection of the linewidth measuring method should meet the following conclusions: an approximately Lorentzian self-heterodyne spectrum without the pedestal and high-intensity sinusoidal jitter is a prerequisite for DSHI; the SCELD needs a suitable length of delay fiber for eliminating flicker noise and dark noise of the electrical spectrum analyzer; a non-Lorentzian self-heterodyne spectrum without a pedestal is an indispensable element for Voigt fitting. According to the experimental results, the laser Lorentzian linewidth of SIL changes from 1.7 kHz to 587 Hz under different injection powers. When the Brillouin erbium fiber laser is utilized, the Lorentzian linewidth is measured to be 60 ± 5 Hz.
- Hefei University of Technology China (People's Republic of)
self-correlation envelope, single longitudinal mode laser; self-injection locking; stimulated Brillouin scattering; delayed self-heterodyne interferometry; self-correlation envelope; Voigt fitting, stimulated Brillouin scattering, Chemical technology, single longitudinal mode laser, self-injection locking, TP1-1185, delayed self-heterodyne interferometry, Article, Voigt fitting
self-correlation envelope, single longitudinal mode laser; self-injection locking; stimulated Brillouin scattering; delayed self-heterodyne interferometry; self-correlation envelope; Voigt fitting, stimulated Brillouin scattering, Chemical technology, single longitudinal mode laser, self-injection locking, TP1-1185, delayed self-heterodyne interferometry, Article, Voigt fitting
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