Title :
Polarization splitting in lossy/gainy MQW directional couplers
Author :
Ho, Kwang C. ; Griffel, Giora ; Tamir, Theodor
Author_Institution :
Dept. of Electr. Eng., Polytech. Univ., Brooklyn, NY, USA
fDate :
7/1/1997 12:00:00 AM
Abstract :
We analyze polarization splitting of light in directional-coupler polarizers by using a transverse modal transmission-line representation. Because it is based on rigorous modal solutions, this approach provides very accurate results and can be applied to situations involving either lossy or gainy materials. By considering a polarizer in which multiquantum-well layers act as one of the two waveguides forming the coupling region, we find that maximum polarization discrimination is achieved at an optimal distance that is different from the polarization length predicted by conventional coupled-mode methods. We derive a novel criterion for determining that optimal length, examine the effect of material loss or gain, and obtain the far-field intensity of the light at the output of the coupler
Keywords :
coupled mode analysis; integrated optics; optical couplers; optical directional couplers; optical losses; optical polarisers; optical waveguide theory; semiconductor quantum wells; transmission line theory; coupled-mode methods; coupling region; directional-coupler polarizers; far-field intensity; gainy materials; lossy materials; lossy/gainy MQW directional couplers; material gain; material loss; maximum polarization discrimination; multiquantum-well layers; optimal distance; optimal length; polarization length; polarization splitting; rigorous modal solutions; transverse modal transmission-line representation; very accurate results; Coordinate measuring machines; Directional couplers; Electromagnetic coupling; Electromagnetic waveguides; Optical coupling; Optical polarization; Optical signal processing; Optical waveguides; Quantum well devices; Transmission lines;
Journal_Title :
Lightwave Technology, Journal of
