Title :
Reducing ASE Effect in Coherent Detection by Employing Double-Pass Fiber Preamplifier and Time-Domain Filter
Author :
Chen, Youming ; Mark, Brian L. ; Burnham, Ralph ; Verdun, Horacio
Author_Institution :
Fibertek, Inc., Vienna, VA, USA
Abstract :
We report on a novel fiber based coherent detection system employing a double-pass fiber preamplifier, a spectral bandpass filter, and a time-domain filter. The time-domain filter, a synchronous time gate, reduces the in-band amplified spontaneous emission (ASE) beat noise, which cannot be achieved by the spectral bandpass filter alone. The double-pass fiber amplifier further reduces the out-band ASE by about 20 dB with a fiber Bragg grating (FBG) at the end of the fiber amplifier. In preliminary experiments with a 100 GHz bandpass filter, no degradation is observed from the optically preamplified coherent detection compared to pure coherent detection. With a 10 ns pulse width, 500 kHz repetition rate, and 10 pW average input power, about 2 dB and 1 dB signal-to-noise ratio (SNR) improvements are achieved when 5% and 50% time gating duty cycles are used, respectively.
Keywords :
Bragg gratings; band-pass filters; light coherence; optical fibre amplifiers; optical fibre filters; optical noise; optical signal detection; superradiance; time-domain analysis; amplified spontaneous emission; coherent detection; double-pass fiber preamplifier; fiber Bragg grating; frequency 100 GHz; frequency 500 kHz; in-band ASE beat noise reduction; power 10 pW; spectral bandpass filter; synchronous time gate; time 10 ns; time gating duty cycle; time-domain filter; Band pass filters; Bragg gratings; Degradation; Fiber gratings; Noise reduction; Optical fiber amplifiers; Preamplifiers; Pulse amplifiers; Spontaneous emission; Time domain analysis; Coherent detection; detection; double-pass fiber preamplifier; sensitivity; time-domain filter (TDF);
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2009.2024773
