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- [1] 1.3-MU-M BH LASER PERFORMANCE AT MICROWAVE-FREQUENCIESJOURNAL OF LIGHTWAVE TECHNOLOGY, 1985, 3 (06) : 1193 - 1201HAKKI, BWBOSCH, FLUMISH, SDIETRICH, NR
- [2] 1.3-MU-M BH LASER PERFORMANCE AT MICROWAVE-FREQUENCIESIEEE TRANSACTIONS ON ELECTRON DEVICES, 1985, 32 (12) : 2585 - 2593HAKKI, BWBOSCH, FLUMISH, SDIETRICH, NR
- [3] 1. 3- mu M MICROWAVE FIBER-OPTIC LINK USING A DIRECT-MODULATED LASER TRANSMITTER.Journal of Lightwave Technology, 1985, LT-3 (02) : 308 - 315Stephens, William E.Joseph, Thomas R.
- [4] RECOMBINATION, GAIN AND BANDWIDTH CHARACTERISTICS OF 1. 3- mu M SEMICONDUCTOR LASER AMPLIFIERS.Journal of Lightwave Technology, 1987, LT-5 (01) : 184 - 189Wang, JinweiOlesen, HenningStubkjaer, Kristian E.
- [5] 1. 3 mu m- AND 1. 55 mu m-InGaAsP/InP LASER DIODES.Japan Annual Reviews in Electronics, Computers & Telecommunications, 1982, 1 : 177 - 188Yamamoto, Takaya
- [6] Two-Mode Lasers with Controlled Frequencies. 1. He-Ne LaserLASER PHYSICS, 1991, 1 (03) : 273 - 278Naumov, N. V.Petrovsky, V. N.Protsenko, E. D.Rurukin, A. N.
- [7] PATTERN PREDICTION AND VSWR PERFORMANCE OF BROADBAND MONOPOLE ANTENNAS FOR MICROWAVE FREQUENCIES.Transactions of the South African Institute of Electrical Engineers, 1987, 78 (02): : 31 - 33Baker, D.E.Botha, L.
- [8] LOW THRESHOLD CURRENT HIGH OUTPUT POWER FUNDAMENTAL TRANSVERSE MODE 1. 3 mu M InGaAsP/InP BH LASER.Pan Tao Ti Hsueh Pao/Chinese Journal of Semiconductors, 1986, 7 (03): : 337 - 339Wang WeiZhang JingyuanTian HuiliangWang Xiaojie
- [9] 1.5 MU-M REGION BH LASER ARRAYJAPANESE JOURNAL OF APPLIED PHYSICS, 1981, 20 (03) : L229 - L232SUZUKI, YNOGUCHI, YTAKAHEI, KNAGAI, HIWANE, G