Title :
Subgigahertz channel filtering by optical heterodyne detection using a single axial mode from an injection-locked passively mode-locked semiconductor laser
Author :
Lee, Wangkuen ; Mielke, Michael ; Etemad, Shahab ; Delfyett, Peter J., Jr.
Author_Institution :
Center for Res. & Educ. in Opt. & Lasers, Univ. of Central Florida, Orlando, FL, USA
Abstract :
We report experimental results of fine (subgigahertz) channel filtering via optical heterodyne detection based on an optical injection locking technique. A passively mode-locked semiconductor laser injection locked to a master oscillator forms a comb of discrete frequency probes, and a single axial mode is used as a local oscillator (LO). The injection-locked LO carrier showed 42-dB phase noise suppression at 100-kHz offset. One of two analog radio frequency signals detuned by only 200 MHz showed a signal-to-noise ratio over 65 dB/Hz through demultiplexing with a commercially available microwave bandpass filter. The single sideband noise of the heterodyne beat tone at 13.160 GHz was measured to be -123 dBc/Hz at 100 kHz offset from the carrier under injection-locked state.
Keywords :
band-pass filters; demultiplexing; heterodyne detection; laser mode locking; optical filters; phase noise; semiconductor lasers; telecommunication channels; wavelength division multiplexing; 100 kHz; 13.160 GHz; 200 MHz; demultiplexing; frequency signal detuning; injection locking; microwave bandpass filter; optical heterodyne detection; passive mode locked-semiconductor laser; phase noise suppression; single axial mode; subgigahertz channel filtering; Filtering; Injection-locked oscillators; Laser mode locking; Laser noise; Local oscillators; Optical detectors; Optical filters; Optical mixing; Optical noise; Semiconductor lasers;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2004.831243
