Title :
Relative intensity noise of laser-diode arrays
Author :
Pillai, Ramadas ; Garmire, Elsa ; Menendez-Valdes, Pedro
Author_Institution :
Center for Laser Studies, Univ. of Southern California, Los Angeles, CA, USA
Abstract :
Relative intensity noise in GaAs-GaAlAs semiconductor laser arrays was measured, compared with that in single-stripe lasers, and reviewed in the context of laser noise theory. When all the light is gathered and back reflections removed, all the arrays tested show comparable noise levels. Good agreement between theory and experiment is obtained for low drive currents where mode competition noise is relatively small. For low drive currents the noise is limited by the quantum noise, whereas for higher currents the noise saturates at about -145 dB/Hz under the best conditions, 10 dB below the level for a comparable single-stripe laser but 10 dB worse than for a single-mode distributed-feedback laser. The low noise in the array is explained quantitatively by considering the multiple transverse modes and the longer cavity length of the array.<>
Keywords :
III-V semiconductors; aluminium compounds; electron device noise; gallium arsenide; laser modes; laser theory; semiconductor laser arrays; GaAs-GaAlAs; cavity length; laser noise theory; laser-diode arrays; low drive currents; mode competition noise; multiple transverse modes; noise levels; noise saturation; quantum noise; relative intensity noise; semiconductor laser arrays; Acoustic reflection; Laser modes; Laser noise; Laser theory; Noise level; Noise measurement; Optical arrays; Optical reflection; Semiconductor device noise; Semiconductor laser arrays;
Journal_Title :
Photonics Technology Letters, IEEE
