Proceedings of LFNM ...Institution of Electrical and Electronics Engineers, 2005 - Fiber optics |
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Page 22
... Quantum Wells , " IEEE J. Quantum Electron . , Vol . 30 , No. 11. , Nov. , 1994 , pp . 2560-2564 3. S. Weiss at al . " Carrier capture times in 1.5μm multiple quantum well optical amplifiers , " Appl . Phys . Lett . , Vol . 60 , No. 1 ...
... Quantum Wells , " IEEE J. Quantum Electron . , Vol . 30 , No. 11. , Nov. , 1994 , pp . 2560-2564 3. S. Weiss at al . " Carrier capture times in 1.5μm multiple quantum well optical amplifiers , " Appl . Phys . Lett . , Vol . 60 , No. 1 ...
Page 85
... quantum cascade lasers , " IEEE J. Quantum Electron . , vol . 3 , p . 336 , 1998 . 4. G. Scamarcio , C. Gmachi , F. Capasso , A. Tredicucci , A. L. Hutchinson , D. L. Sivco , and A.Y. Cho , " Long wavelength interminiband quantum ...
... quantum cascade lasers , " IEEE J. Quantum Electron . , vol . 3 , p . 336 , 1998 . 4. G. Scamarcio , C. Gmachi , F. Capasso , A. Tredicucci , A. L. Hutchinson , D. L. Sivco , and A.Y. Cho , " Long wavelength interminiband quantum ...
Page 320
ULTRA - THIN QUANTUM WELLS AND FRACTIONAL MONOLAYER QUANTUM DOTS OF II - VI SEMICONDUCTORS FOR OPTOELECTRONIC APPLICATONS I. Hernández - Calderón , A. Alfaro - Martínez and M. García - Rocha Physics Department , CINVESTAV Apdo . Postal ...
ULTRA - THIN QUANTUM WELLS AND FRACTIONAL MONOLAYER QUANTUM DOTS OF II - VI SEMICONDUCTORS FOR OPTOELECTRONIC APPLICATONS I. Hernández - Calderón , A. Alfaro - Martínez and M. García - Rocha Physics Department , CINVESTAV Apdo . Postal ...
Contents
LFNM Plenary | 1 |
BatteryLess Spatial Optical Communication Terminals for LocationBased Indoor | 14 |
Resonant Photoproduction of the ElectronPositron Pair with Photon Emission | 27 |
Copyright | |
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amplitude approximation bandwidth Bragg broadening calculated cavity characteristics circuit coefficient corner reflector corresponding crystal oscillator curves density dependence device dielectric diffraction dispersion distribution e-mail effect electric Electronics emission energy equation error excitation experimental field filter function Gaussian grating IEEE input intensity interaction investigated Keywords Kharkiv Kharkiv National University laser lattice layer Lett light beams linear maximum measurement medium method mode modulation National University noise nonlinear obtained optical fiber optical splitter output parameters phase phase noise photodetector photonic photonic crystal Phys piezoelectric polarization Proc propagation pulse pumping current quantum quartz radiation Raman gain range reflector refractive index region resonator sample scattering semiconductor sensor shown signal simulation solitons solution spectral structure surface temperature thickness transmission Ukraine University of Guanajuato University of Radio VCSEL voltage wave waveguide wavelength width