Title :
Widely and continuously tunable micromachined resonant cavity detector with wavelength tracking
Author :
Wu, M.S. ; Vail, E.C. ; Li, G.S. ; Yuen, W. ; Chang-Hasnain, C.J.
Author_Institution :
Edward L. Ginzton Lab., Stanford Univ., CA, USA
Abstract :
We demonstrate a resonant cavity wavelength tunable detector with a record 30-nm continuous tuning range, 17-dB extinction ratio, and a low 7-V tuning voltage. The detector map be biased to operate in one of two modes. In the first, the detector is tuned to a specific wavelength. In the second, the detector can be tuned to a nominal wavelength and remain locked to the wavelength of the incident light despite wavelength variations. Consequently, this detector is ideal for operation as a cost-effective and robust receiver for WDM communication systems, spectroscopic applications, and wavelength measurement.
Keywords :
cavity resonators; infrared detectors; infrared spectroscopy; micromachining; optical receivers; optical resonators; photodetectors; tuning; wavelength division multiplexing; 7 V; 895 to 955 nm; AlAs-GaAs; AlGaAs; InGaAs; WDM communication systems; continuously tunable micromachined resonant cavity detector; cost-effective receiver; detector map; extinction ratio; nominal wavelength; resonant cavity wavelength tunable detector; robust receiver; specific wavelength; spectroscopic applications; tuning range; tuning voltage; wavelength measurement; wavelength tracking; wavelength variations; widely tunable micromachined resonant cavity detector; Detectors; Distributed Bragg reflectors; Gallium arsenide; Mirrors; Resonance; Robustness; Senior members; Tuning; WDM networks; Wavelength division multiplexing;
Journal_Title :
Photonics Technology Letters, IEEE
