![]() ![]() Marcuse, Short-cavity InGaAsP injection lasers: Dependence of mode spectra and single-longitudinal-mode power on cavity length. Manneville, Dissipative Structures and Weak Turbulence. Orton, The single-mode rate equations for semiconductor lasers with thermal effects. Tuck, Mathematical modelling of thermal effects in semiconductor laser operation. Darling, Effects of nonlinear gain in mode-hopping in semiconductor laser diodes. Roy, Bistability and mode hopping in a semiconductor laser. The relaxation oscillation frequency is 3.6 GHz and the 720 MHz peak fine structure corresponds to the period-5 oscillation in Fig.G. The system is prepared in the short wavelength mode and gradually evolves to the long wavelength mode. We derive the Bogatov effect of asymmetric gain suppression in semiconductor lasers and illustrate the potential of the model for a two and three-mode laser by numerical and analytical methods.Ĭiting articles from OSA journals and other participating publishers are listed here. ![]() Mutual interactions among the lasing modes, induced by high- frequency modulations of the carrier distribution, are included by carrier-inversion moments for which rate equations are given as well. The Topic facet will reveal the high-level topics associated with the articles returned in the search results. This topic browser contains over 2400 terms and is organized in a three-level hierarchy. Huynh, and Lim Nguyen Overcoming Phase Sensitivity in Real-Time Parallel DSP for Optical Coherent Communications: Optically Filtered Lasers By Wing-Chau NG Homodyne Coherent Optical Receiver Using an Optical Injection Phase-Lock Loop By Andrea Chiuchiarelli DFB laser dynamics and noise characterization by high resolution and high dynamic range measurements of its CW optical spectrum By javier lasobras DFB laser dynamics and noise characterization by high resolution and high dynamic range measurements of its CW optical spectrum By Jose Lazaro READ PAPER Download pdf.īy continuing to use this site, you agree to our use of cookies. ![]() Related Papers Numerical generation of laser-resonance phase noise for optical communication simulators By Sen Dill, T. Jacobsen Sergei Popov Miguel Olmedo Loading Preview Sorry, preview is currently unavailable. Jacobsen Sergei Popov Miguel Olmedo Download with Google Download with Facebook or download with email Rate Equation-Based Phase Recovery for Semiconductor Laser Coherent Transmitters Download Rate Equation-Based Phase Recovery for Semiconductor Laser Coherent Transmitters Darko Zibar Xiaodan Pang Molly Piels Richard Schatz G. Semiconductor Laser Rate Equation Download With Email Semiconductor Laser Rate Equation Download With Email. ![]()
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