New optical filter employing multireflection mirror to provide design flexibility for WDMA
Loading...
Date
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
A novel optical device employing an amplified ring resonator and a multireflecting mirror inside, is presented. Is founded its transfer function. Also simple expressions for the separation of the two maximums of this novel transfer function are developed. We have obtain separations of 320 MHz for ΔXb=0.05.
Description
A novel optical device employing an amplified ring resonator and a multireflecting mirror inside, is presented. Is founded its transfer function. Also simple expressions for the separation of the two maximums of this novel transfer function are developed. We have obtain separations of 320 MHz for ΔXb=0.05.
Keywords
frequency division multiple access, mirrors, optical communication equipment, optical crosstalk, optical design techniques, optical filters, wavelength division multiplexing, frequency division multiple access, mirrors, optical communication equipment, optical crosstalk, optical design techniques, optical filters, wavelength division multiplexing