Proceedings Volume 6889 is from: Logo
19-24 January 2008
San Jose, California, United States
Front Matter: Volume 6889
Proc. SPIE 6889, Front Matter: Volume 6889, 688901 (10 March 2008);
Wide-Bandgap Lasers and LEDs
Proc. SPIE 6889, Optical gain and spontaneous emission of strain-compensated InGaN-AlGaN quantum wells including carrier screening effect, 688903 (22 February 2008);
Proc. SPIE 6889, Thick InGaN growth on several crystal planes of ZnO substrate by metalorganic vapor phase epitaxy, 688904 (22 February 2008);
Proc. SPIE 6889, Effect of interface polarization charge on the performance of nitride semiconductor light emitting diodes, 688905 (22 February 2008);
Photovoltaic Devices
Proc. SPIE 6889, Present and future of super high efficiency multi-junction solar cells, 688906 (22 February 2008);
Nonlinear Dynamics and Chaos in Semiconductor Lasers
Proc. SPIE 6889, All-optical noninvasive control of semiconductor lasers, 688909 (22 February 2008);
Proc. SPIE 6889, Semiconductor laser subject to intense feedback with variably rotated polarization, 68890A (22 February 2008);
Proc. SPIE 6889, Nonlinear dynamics and chaotic behavior observed in laterally coupled diode lasers, 68890B (22 February 2008);
Physics of Low-Dimensional Structures and Devices
Proc. SPIE 6889, Nonlinear excitations of semiconductor quantum wells with intense terahertz fields, 68890D (22 February 2008);
Proc. SPIE 6889, Temperature dependence of radiative and Auger losses in quantum well lasers, 68890E (22 February 2008);
Physics and Simulation of VCSELs and Disk Lasers
Proc. SPIE 6889, Ultra high-speed electro-optically modulated VCSELs: modeling and experimental results, 68890H (22 February 2008);
Proc. SPIE 6889, A robust electro-optothermal coupling scheme for semiconductor laser simulation, 68890I (22 February 2008);
Physics of Quantum Dot/Dash Lasers and Amplifiers
Proc. SPIE 6889, Compact quantum-dot-based ultrafast lasers, 68890K (22 February 2008);
Proc. SPIE 6889, Recent developments of InP-based quantum dashes for directly modulated lasers and semiconductor optical amplifiers, 68890L (22 February 2008);
Proc. SPIE 6889, Giant nonlinear gain coefficient of an InAs/AlGaInAs quantum dot laser, 68890M (29 February 2008);
Photonics with Single-Quantum-Dot Devices
Proc. SPIE 6889, Resonantly excited emissions from a GaAs quantum dot and an exciton dipole moment, 68890S (22 February 2008);
Nanoscale Devices
Proc. SPIE 6889, Dipole lasing stimulated by nanoantenna, 68890U (22 February 2008);
Photonic Crystal Devices
Proc. SPIE 6889, High-power one-, two-, and three-dimensional photonic crystal edge-emitting laser diodes for ultra-high brightness applications, 68890W (22 February 2008);
Photonic Crystal Nanocavity Devices
Proc. SPIE 6889, Ultrafast photonic crystal nanocavity lasers and optical switches, 688910 (22 February 2008);
Proc. SPIE 6889, Physics and simulation of photonic crystal Purcell light emitters, 688911 (22 February 2008);
Mid-Infrared Devices
Proc. SPIE 6889, Thermal analysis of mid-infrared quantum-cascade lasers, 688912 (22 February 2008);
Proc. SPIE 6889, Strain-compensated AlAs-InGaAs quantum-cascade lasers with emission wavelength 3-5 µm, 688913 (7 February 2008);
Proc. SPIE 6889, Mid/far-infrared photodetection based on resonant frequency up-conversion in coupled quantum wells, 688914 (22 February 2008);
Physics of Ring Lasers and Diode Laser Frequency Stabilization
Proc. SPIE 6889, Monolithic InP-based passively modelocked semiconductor ring lasers at 1.5 µm, 688915 (22 February 2008);
Proc. SPIE 6889, Highly unidirectional Y-junction S-section ring lasers, 688916 (29 February 2008);
Proc. SPIE 6889, Semiconductor laser frequency-stabilization: influence of multi-position temperature controls, 688917 (22 February 2008);
Proc. SPIE 6889, Frequency stabilization of an external cavity diode laser: countermeasures against atmospheric temperature variations, 688918 (29 February 2008);
Poster Session
Proc. SPIE 6889, All-optical signal processing in photonic crystals covered with fast nonlinear materials, 688919 (22 February 2008);
Proc. SPIE 6889, A novel acousto-optic tunable filter for use in hyperspectral imaging systems, 68891C (22 February 2008);
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