INP-BASED HBT TECHNOLOGY FOR NEXT-GENERATION LIGHTWAVE COMMUNICATIONS
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A. Gutierrez-Aitken | Kevin W. Kobayashi | D. C. Streit | A. K. Oki | Liem T. Tran | J. Cowles | T. R. Block
[1] X. Zhang,et al. 16-GHz bandwidth InAlAs-InGaAs monolithically integrated p-i-n/HBT photoreceiver , 1995, IEEE Photonics Technology Letters.
[2] Y. Imai,et al. A 16-dB DC-to-50-GHz InAlAs/InGaAs HEMT distributed baseband amplifier using a new loss compensation technique , 1994, Proceedings of 1994 IEEE GaAs IC Symposium.
[3] J. Akagi,et al. DC to 40-GHz broad-band amplifiers using AlGaAs/GaAs HBT's , 1995 .
[4] P. R. Smith,et al. A 28 GHz transimpedance preamplifier with inductive bandwidth enhancement , 1992, 1992 International Technical Digest on Electron Devices Meeting.
[5] C. S. Aitchison. Potential of the distributed amplifier as a photo-diode detector amplifier in high bit rate optical communication systems , 1990 .
[6] Heinz-Gunter Bach,et al. 27-GHz bandwidth high-speed monolithic integrated optoelectronic photoreceiver consisting of a waveguide fed photodiode and an InAlAs/InGaAs-HFET traveling wave amplifier , 1997 .
[7] Mark J. W. Rodwell,et al. 33-GHz monolithic cascode AlInAs/GaInAs heterojunction bipolar transistor feedback amplifier , 1990 .
[8] Eiichi Sano,et al. 23 GHz bandwidth monolithic photoreceiver compatible with InP/InGaAs double-heterojunction bipolar transistor fabrication process , 1994 .
[9] Y. Matsuoka,et al. High-speed AlGaAs/GaAs HBTs and their applications to 40-Gbit/s-class ICs , 1994, Proceedings of 1994 IEEE GaAs IC Symposium.
[10] Kevin W. Kobayashi,et al. Transimpedance bandwidth performance of an HBT loss-compensated coplanar waveguide distributed amplifier , 1996 .