Digital Communications

[1]  Leslie A. Rusch,et al.  Passive optical fast frequency-hop CDMA communications system , 1999 .

[2]  Clinton Randy Giles,et al.  Dispersive properties of optical filters for WDM systems , 1998 .

[3]  A. Yariv,et al.  All-fiber zero-insertion-loss add-drop filter for wavelength-division multiplexing. , 1998, Optics letters.

[4]  K. Hill,et al.  Fiber Bragg grating technology fundamentals and overview , 1997 .

[5]  G. Nykolak,et al.  All-fiber active add-drop wavelength router , 1997, IEEE Photonics Technology Letters.

[6]  Masayuki Okuno,et al.  16-channel optical add/drop multiplexer consisting of arrayed-waveguide gratings and double-gate switches , 1996 .

[7]  N. S. Bergano,et al.  Wavelength division multiplexing in long-haul transmission systems , 1996, Conference Proceedings. LEOS '97. 10th Annual Meeting IEEE Lasers and Electro-Optics Society 1997 Annual Meeting.

[8]  M W Chbat,et al.  Optical clock recovery from a data stream of an arbitrary bit rate by use of stimulated Brillouin scattering. , 1995, Optics letters.

[9]  John E. Sipe,et al.  Long-period fiber gratings as band-rejection filters , 1995 .

[10]  W.H. Tranter,et al.  Simulation of communication systems , 1994, IEEE Communications Magazine.

[11]  S. Kawanishi,et al.  Ultra-high-speed PLL-type clock recovery circuit based on all-optical gain modulation in traveling-wave laser diode amplifier , 1993 .

[12]  S. D. Personick,et al.  Towards global information networking , 1993, Proc. IEEE.

[13]  Y. Imai,et al.  Design and performance of clock recovery GaAs ICs for high-speed optical communication systems , 1993 .

[14]  U. Langmann,et al.  A Si bipolar phase and frequency detector IC for clock extraction up to 8 Gb/s , 1992 .

[15]  Behnaam Aazhang,et al.  Constrained solutions in importance sampling via robust statistics , 1991, IEEE Trans. Inf. Theory.

[16]  Behnaam Aazhang,et al.  On the theory of importance sampling applied to the analysis of detection systems , 1989, IEEE Trans. Commun..

[17]  P.K. Varshney,et al.  Information, transmission, modulation and noise , 1981, Proceedings of the IEEE.

[18]  J. R. Clark Optical communications , 1977, Proceedings of the IEEE.

[19]  A. Yariv,et al.  Guided wave optics , 1974 .

[20]  F. Kapron,et al.  RADIATION LOSSES IN GLASS OPTICAL WAVEGUIDES , 1970 .

[21]  J. D. Kingsley,et al.  Coherent Light Emission From GaAs Junctions , 1962 .

[22]  W. Dumke,et al.  STIMULATED EMISSION OF RADIATION FROM GaAs p‐n JUNCTIONS , 1962 .

[23]  E. Snitzer Cylindrical Dielectric Waveguide Modes , 1961 .

[24]  T. Maiman Optical and Microwave-Optical Experiments in Ruby , 1960 .

[25]  C. Shannon Probability of error for optimal codes in a Gaussian channel , 1959 .

[26]  William Shockley,et al.  The theory of p-n junctions in semiconductors and p-n junction transistors , 1949, Bell Syst. Tech. J..

[27]  H. Nyquist,et al.  Certain Topics in Telegraph Transmission Theory , 1928, Transactions of the American Institute of Electrical Engineers.

[28]  J. Bardeen,et al.  The Transistor, A Semiconductor Triode , 1998, Proceedings of the IEEE.

[29]  M. Schwartz,et al.  Communication Systems and Techniques , 1996, IEEE Communications Magazine.

[30]  C. Boisrobert,et al.  Fiber Optic Communication Systems , 1979 .

[31]  I. Hayashi,et al.  GaAs–GaxAl1−xAs Heterostructure Injection Lasers which Exhibit Low Thresholds at Room Temperature , 1970 .

[32]  Z. Alferov AlAs-GaAs heterojunction injection lasers with a low room-temperature threshold , 1969 .

[33]  John Bowman Thomas,et al.  An introduction to statistical communication theory , 1969 .

[34]  H. Zahn Über den Nachweis elektromagnetischer Wellen an dielektrischen Drähten , 1916 .

[35]  Edmund Taylor Whittaker XVIII.—On the Functions which are represented by the Expansions of the Interpolation-Theory , 1915 .

[36]  D. Hondros,et al.  Elektromagnetische Wellen an dielektrischen Drähten , 1910 .