Components for Wavelength Division Multiplexing: 9 February 1995, San Jose, CaliforniaEmil S. Koteles |
Contents
analysis using coupledmode theory | 9 |
Analytical theory of optical channeldropping filters 240204 | 18 |
Spectral optimization of optical wavelength filters 240205 | 29 |
Copyright | |
5 other sections not shown
Common terms and phrases
absorption amplifier anneal antiresonant ARROW waveguides bandgap bandwidth beam Bragg Bragg reflection channel circuit cladding layer components contrast ratio coupled-mode coupler daughterboards DBR lasers demultiplexer device DFB lasers echelle grating electrical Electron element lasers etching expected number fabrication Figure filter function gain Gb/s grating guiding layer implantation individual waveguides InGaAs input laser array laser diode laser driver lasing Lett measured modulation depth monolithically integrated motherboard MSM detectors multiple-plane nonlinear normal modes number of hops number of nodes number of planes optical fiber optical interconnection optimized optoelectronic parameters photodetector pixel plane configuration polarization power penalty probe power propagation quantum reflected refractive index region resonant ridge width risetime Rx module semiconductor signal simulation singlemode source node spectral response stopband structure substrate switching delay transimpedance amplifier transmission tunable Tx chip wavelength division multiplexing wavelength shifting wavelengths per pixel