Optical preamplifier using optical modulation of amplified spontaneous emission in saturated semiconductor optical amplifier

This paper demonstrates a novel optical preamplifier using optical modulation of amplified spontaneous emission (ASE) emitted from a saturated semiconductor optical amplifier (SOA). Requirements on optical alignments and antireflection coating for SOAs can be relaxed and the elimination of an optical filter gives us a large tolerance of an input light wavelength in the proposed optical preamplifier. A small-signal gain of a fabricated preamplifier was over 13.5 dB for an input power of below -20 dBm. An optical gain bandwidth was over 60 nm. We measured the small-signal response of the optically modulated ASE. The 3 dB bandwidths at SOA bias currents of 200, 300, and 400 mA were 5.8, 12.6, and 16.5 GHz, respectively. We also investigated improvements in receiver sensitivities with the proposed optical preamplifier. Our calculation shows a possibility of 10 dB improvement in receiver sensitivities by using the optical preamplifier at 10 Gb/s. The measured receiver sensitivity was -22.7 dBm at 10 Gb/s with the optical preamplifier, which is corresponding to an improvement of 2.5 dB in the receiver sensitivity. Further improvements of the receiver sensitivity can be expected by optimizing the structure of SOAs for saturating ASE.

[1]  Raman Kashyap,et al.  Error free 100 Gbit/s wavelength conversion using grating assisted cross-gain modulation in 2 mm long semiconductor amplifier , 1998 .

[2]  N. Olsson Lightwave systems with optical amplifiers , 1989 .

[3]  Kenichi Iga,et al.  Novel optical preamplifier with inverted ASE signal of semiconductor optical amplifier , 2001, Proceedings 27th European Conference on Optical Communication (Cat. No.01TH8551).

[4]  S. L. Danielsen,et al.  All-optical wavelength conversion at bit rates above 10 Gb/s using semiconductor optical amplifiers , 1997 .

[5]  Sadao Fujita,et al.  High receiver sensitivity at 10 Gb/s using an Er-doped fiber preamplifier pumped with a 0.98 mu m laser diode , 1991 .

[6]  A.H. Gnauck,et al.  2.5 and 10 Gb/s transmission experiments using a 137 photon/bit erbium-fiber preamplifier receiver , 1992, IEEE Photonics Technology Letters.

[7]  Fumio Koyama,et al.  Optical preamplifier using inverted signal of amplified spontaneous emission in saturated semiconductor optical amplifier , 2001 .

[8]  J.S. Lee,et al.  Spectrum-sliced fiber amplifier light source for multichannel WDM applications , 1993, IEEE Photonics Technology Letters.

[9]  G. Guekos,et al.  Gain recovery of bulk semiconductor optical amplifiers , 1998, IEEE Photonics Technology Letters.

[10]  T. Toyonaka,et al.  High performance of 10-Gb/s APD/preamplifier optical-receiver module with compact size , 2003, IEEE Photonics Technology Letters.

[11]  F. G. Storz,et al.  High-gain mode-adapted semiconductor optical amplifier with 12.4-dBm saturation output power at 1550 nm , 2002 .

[12]  Ng Jun Hong,et al.  Wavelength conversion based on cross-gain modulation of ASE spectrum of SOA , 2000, IEEE Photonics Technology Letters.

[13]  S. L. Danielsen,et al.  40 Gbit/s all-optical wavelength conversion by semiconductor optical amplifiers , 1996 .

[14]  Ryoji Takeyari,et al.  High-sensitivity and wide-dynamic-range 10 Gbit/s APD/preamplifier optical receiver module , 2002 .

[15]  Sethumadhavan Chandrasekhar,et al.  Photonic integrated receiver for 40 Gbit/s transmission , 2002 .