Verfügbarkeit: Technical digest

Technical digest: San Diego, California, February 18 - 22, 1991

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Bibliographische Detailangaben
Körperschaft:	OFC San Diego, Calif (VerfasserIn)
Format:	Tagungsbericht Buch
Sprache:	English
Veröffentlicht:	Washington, DC Optical Soc. of America 1991
Schlagworte:	Fiber optics > Congresses Optical communications > Congresses Optische Nachrichtentechnik Konferenzschrift > 1991 > San Diego Calif.
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XIX, 226 S. zahlr. graph. Darst.
ISBN:	078030571X 0780305728

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Datensatz im Suchindex

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adam_text	CONTENTS TUESDAY, FEBRUARY 19, 1991 TuA KEYNOTE ADDRESS TuAl TuB OPTOELECTRONIC INTEGRATED CIRCUITS TuBl TuB2 TuB3 TuB4 TuB5 TuC ANALOG CATV TuD TUTORIAL TuCl TuC2 TuC3 TuC4 TuCS TuDl TuE PASSIVE COMPONENTS: 1 Social consequences of the optical fiber revolution .......1 R. W. Luch/ Ultra-high-speed optoelectronic integrated receivers for fiber¬ optic communications ........................2 Hiroshi Yano, Keigo Aga, Michio Murata, Hidenorì, Kamei, Goro Sasaki, Hideki Hayashi High-speed eight-channel optoelectronic integrated receiver arrays comprising GalnAs pin photodiodes and AlInAs/Galn- As HEMTs ...............................3 Keigo Aga, Hiroshi Yano, Michio Murata, Hidenori Kamei, Goro Sasaki, Hideki Hayashi Hetero junction bipolar transistor-based long-wavelength op¬ toelectronic integrated circuits ...................4 S. Chandrasekhar High-functionality waveguide/MSM/HEMT integrated re¬ ceiver prepared by one-step OMCVD growth on patterned InP substrates .............................5 W. P. Hong, G. K. Chang, R. Bhat, H. Lee, C. Bguyen, J. R. Hayes Novel electronically switched multichannel receiver for wave¬ length-division-multiplexing systems ..............6 G. K. Chang, W. P. Hong, R. Bhat, C. K. Nguyen, J. L. Gimlett, C. Lin,]. R. Hayes Fiber technology in CATV networks ...............7 James A. ChiddL· Optimized performance of erbium-doped fiber amplifiers in subcarrier multiplexed lightwave CATV systems ....... . 8 J. M 1. Habbab, L. }. Cimini, Jr. áO-Channel VSB-AM CATV link utilizing a high-power er¬ bium amplifier ............................9 D. R. Huber Nonlinear distortion from fiber dispersion of chirped inten¬ sify modulated signals ........................10 M. R. Phillips, T. E. Darde, D. Marcase, G. E. Bodeep, N. J. Frigo Analysis and measurement of interf erometric distortion prod¬ ucts produced in externally modulated AM video systems . .11 Vincent A. O Byme, Richard B. Childs, Timothy A. Tatlock Multichannel lightwave networks Richard E. Wagner .12 TuEl Role of the core index profile in the performance modeling of polished-type optical fiber couplers ................13 Hung-chun Chang, Wen-hanjuan, Chung-ULu TuF VERTICAL-EMITTING LASERS/PASSIVE WAVEGUIDE COMPONENTS TuG PLANAR WAVEGUIDES TuH FIELD TRIALS TuE2 Variable-ratio, polarization-insensitive, 3x3 fused biconical tapered couplers ...........................14 Ashish M. Vengsarkar, Michael F. Günther, Kent A. Murphy, Ri¬ chard O. Claus TuE3 Single-chip 32 x 32 star coupler with tapered fiber-coupling regions .................................15 Я. Yamgawa, T. Shimizu, S. Nakamura, I. Ohyama TuE4 Neural-processing type optical wavelength demultiplexer using high-speed analog-neural-network integrated circuits .16 Masafumi Koga, Takao Matsumoto, Yoshihito Amemiya, Atsushi Iwata, Akio Sugita TuE5 Passive components f or the subscriber loop ...........17 D. A. Nolan TuFl High-precision molecular-beam epitaxy growth of vertical-cavity surface-emitting lasers ..................................18 J. P. Harbison, L. R. Florez, A. Scherer, C. J. Chang-Hasnain, A. С Von Lehman, H. J. Yoo, M. Orenstein, E. M. Clausen, Jr., J. L. Jewell TuF2 Dynamic characteristics of a high-performance vertical-cavity surface-emitting laser ........................19 F. S. Choa, Y. H. Lee, B. Tell, T. L. Koch, C. A. Burrus, J. L. Jewell TuF3 Continuous wavelength tuning of two-electrode vertical-cav¬ ity surf асе -emitting lasers ......................20 C. ƒ. Chang-Hasnain, J. P. Harbison, C. E. Zah, L. T. Florez, N. C. Andreadakis, T. P. Lee TuF4 Wavelength-flattened (3 x 3) coupler with silica waveguides on silicon ................................21 Akihiro Takagi, Kaname Jingjui, Masao Kawachi TuF5 Very low-loss phosphorus-doped silica-on-silicon waveguides measured using a ring resonator ..........22 R. Adar, Y. Shani, C. H. Henry, R. C. Kistler, G. E. Blonder, N. Α. Olsson TuF6 Organic channel waveguides with low loss at 1.3 μΓΠ .... 23 Saburo Imamura, Ryoko Yoshimura, Tatsuo Izawa TuF7 Photopatternable epoxy ridge waveguides ............24 ƒ. M, Trewhelk,]. D. Felorme, G. Fan, A. Speth, D. Flagello, M. M. Opryski TuF8 Electro-optic effect of organic molucule doped silica film pre¬ pared by sol-gel method ......................25 M. До, S. Hośhino, H. Kanamori, H. Yokota TuGl Silica-based planar lightwave circuits for fiber-to-ťhe-home applications .............................26 Masao Kawachi, Tetsuo Miya, Yasuji Ohmori TuG2 Integrated-optic waveguide glass lasers .............27 N. A. Sanford, K. J. Mahne, D. R. Larson TuHl Multigigabit capacity 1.5-nmWDM field trial ......... Л8 Jonathan A. Nagel, Daniel A. Fishman, Samia M. Bahsoun Tuffi Coherent transmission field demonstrations ......... 29 M. С. Brain VI ТиНЗ 1.7-Gb/s coherent optical transmission field trial ........30 Y.K.Park Tuffi Polarization-diversity receiver performance of 2.5-Gb/s CPFSK regenerators in a field trial ................31 Norio Ohkawa, Tatamasa Irmi, Yoshihiro Hayashi, Takeshi Ito TuH5 Hybrid polarization diversity balanced frontend receiver for coherent systems ...........................32 }. Hankey, C. Edge,}. Urauhart, S. Pike,M. Owen,M.J. Wale Tul FDDI PERFORMANCE Tull High-performance distributed computing in SYMPOSIUM FDDInetworks ............................33 Mary Jane Strohí TuI2 High-throughput networking ...................34 Rafael M. Montalvo ТиІЗ Performance of FDDI networks in the system, environment .35 Darrell Scherbarth TuI4 Performance analysis of FDDI token ring networks ......36 Raj Jain TuJ TUTORIAL Tujl Applications of nonlinear optics in fibers ............37 R. H. Stolen TuK NONLINEAR EFFECTS TuKl Additive pulse compression mode-locking of IN FIBERS fiber lasers ...............................38 M. Hofer, F. Haben, M. E. Fermanti TuK2 Femtosecond optical pulse transmission over long distances using adiabatic soliton trapping and soliton standardization .39 Hirokazu Kubota, Masataka Nakazawa, Kenji Kurokawa ТиКЗ New technique to measure the zero-dispersion wavelength of single-mode optical fibers .....................40 M. Stern,}. P. Heritage TuK4 Stimulated Brillouin threshold dependence on fiber type and uniformity ...............................41 X. P. Mao, R. W. Tkach, A. R. Chraylyvy, R. M. Jopson, R. M. Oerosier Tu L TUTORIAL TuLl Fiber optics and cable television ..................42 Alex B. Best TuM PASSIVE TuMl Passive components for multichannel COMPONENTS: 2 networks ................................43 ƒ. S. Leach TuM2 Design and performance of bidirectional fiber Bragg grating taps ..............................44 G.Meltz^.W.Morey ТиМЗ Fiber Fabry—Perot filter with passive temperature compensa¬ tion and its application in a wavelength-division multiple-ac¬ cess computer network .......................45 Calvin M. Miller, Frank}. Janniello TuM4 High-efficiency diffraction gratings in D-type fibers ......46 Jim D. Freeze, Michael A. }ensen, Richard Setfridge VU TuM5 Evanescent-wave holographic gratings in optical fibers Russell May, Walid Saleh, Richard O. Clans .47 TuN OPTICAL SIGNAL TuNl PROCESSING COMPONENTS TuN2 TuN3 TuN4 TuN5 TuO GIGABIT-PER-SECOND TuOl SYSTEMS TuO2 TuO3 TuP NETWORK PERFORMANCE Ultrafast all-optical logic operations in a nonlinear Sagnac in¬ terferometer with two pump pulses ................48 M. Jinno, T. Matsumoto Ultrafast all-optical cell expander for photonic asychronous transfer-mode networks .......................49 M. Jinno, T. MorioL·, T. Matsumota. M. Saruwatari Demultiplexing of 40-Gb/s optical signal to 2.5 Gb-s using a nonlinear fiber loop mirror driven by amplified, gain- switched laser diode pulses .....................50 Atsushi Takada, Kazuo Aida, MasahiL· Jinno Generation of subpicosecond transform-limited optical pulses f or optical fiber communications .............51 Y. K. Chen, M. С Wu, T. Tanbun-Ek, R. A. Logan, M. A. Chin Frequency conversion and switching by four-wave mixing in traveling-wave semiconductor laser amplifiers .........52 H. G. Weber, G. Grosskopf, R. Ludwig, R. Schnabel, N. Schunk 10-Gb/s, 28.5-km distributed erbium fiber transmission with low-signal-power excursion ....................53 D. M. Spirit, L. C Blank 10-Gb/s, 100-km normal fiber transmission experiment using a modified prechirp technique ...................54 N. Henmi, T. Saito, M. Yamaguchi, S. Fujita 10-Gb/s direct detection lightwave technology .........55 Muhammed Zafar labal TuQ TUTORIAL TuPl High-performance local and metropolitan area network architectures ..............................56 Mark J. Karol TuP2 Comparative evaluation of high-performance fiber-optic net¬ work architectures ..........................57 F. Tobagi TuP3 Performance modeling of layered communication systems in a multiprocessing environment ..................58 Asser N. Tantawi, Ahmed N. Tantawy TuQl Semiconductor lasers f or lightwave communications .....59 Joanne S. LaCourse WEDNESDAY, FEBRUARY 20, 1991 WA FJBER PROCESS TECHNOLOGIES WAI Current status and future trends in optical fiber fabrication .61 K. L. Walker WA2 New optical fiber fabrication technique using sol-gel dipcoating ...............................62 D.J. DiGiomnni, J. B. MacChesney Vili WB STRAINED-LAYER LASERS WA3 Aerosol techniques f or fiber core doping .............63 T. F. Morse, A. Kilian, L. Reinhart, Wm. Risen, ]r. ]. W. Cipolla, ]r. WA4 Effect of additives for silica glasses on optical absorption properties in the UV region .....................64 Y. Ohga, S. Ishikawa, H. Kanamori, H. УоШа, M. Kyoto WA5 Low-polarization dispersion in MCVD dispersion-shifted fibers ..................................65 W. B. Gardener, A. A. Klein, H. T. Sbang WB1 High-power, 980-nm, single-mode laser diodes .................................66 D. F. Welch, W Plano, J. Major, M. Devito, D. Scifres WB2 Long-wavelength InGaAs/InGaAsP strained-layer multiple quantum-well lasers .........................67 P.J.A.Thijs WB3 Strained InGaAs/InP quantum-well laser diodes for low- threshold operation .........................68 J. S. Osinski, P. Grodzinski, Y. Zou, P. D. Dapkus WB4 High-speed, low-wavelength chirping characteristics of 1.5- μχη strained-layer quantum-well self-aligned constricted mesa DFB lasers ...........................69 Y. Hirayama, N. Suzuki, M. Onomura, M. Morinaga, M. Funemizu, M. Kushibe, M. Nakamura WB5 Low-threshold and high-speed 1.5-μπι strained-layer multiple quantum-well four-wavelength distributed-feedback laser ar¬ rays ...................................70 С E. Zah, K. W Cheung, S. G.Menocal, R. Bhat, M. Z. Iqbal, F. Favire, N. С Andreadakis, P. S. D. Lin, A. S. Gozdz, M. A. Koza, T. P.Lee WC SUBSCRIBER LOOP WCl WC2 WC3 WC4 WD SWITCHED NETWORKS WD1 WD2 Full-duplex optical transmission using semiconductor laser amplifiers ...............................71 P. A. Andrekson, N. A. Olsson Four-channel distributed-feedback laser array module for transmitters of optical frequency-division-multiplexing sys¬ tems ...................................72 Satoshi Sekine, Hiromu Toba, Kenji Sato Use of a two-dimensional multi-wavelength surface-emitting laser array in a four-channel wavelength-division-multi¬ plexed system experiment ......................73 M. W. Maeda, C. J. Chang-HasnainJ. S. Patel, H. A. ]ohnson, ]. Α. Víalker, Chinlon Lin Packaging requirements for a dense optical receiver array C. S. Li .74 Optical subscriber loop technology trends in Japan ......75 Tdsuya Miki, Ichiro Yamashita IBM Enterprise Systems Connection I/O channels ................................76 J. C. Elliot, M. W. Saclts, C. }. Georgian, T. A. Larsen, J. M. Taylor, D. J. Stiglhni,Jr., W. E. Вису, G. DeMario, W. Cordaro Network design for fiber-optic computer communications . .77 Christos]. Georgiou IX WE TUTORIAL WF FIBER SENSORS AND MEASUREMENTS WG ADVANCED OPTICAL SOURCES: 1 WD3 Photonic fast-packet switching at 700 Mb/s ...........78 W. L. Ha, R. M. Fortenberry, G. M. Wucka, R. S. Tucker WD4 A multi-gigabit-per-second wavelength-division-multiplex- ing byte-by-byte switch using fast tunable heterodyne receivers ................................79 Mario A. Santom, Kai Y. Eng, Thomas L. Koch, Liang D. Tseng WEI Solitons in ultra-long-distance transmission ...........80 L.F. Molìenauer WF1 Recent progress and current trends in fiber-optie sensing .................................81 A. D. Kersey WF2 Optimization of phase detectability in a free-running homodyne fiber interferometer ..................82 T. A. Berkoff, A. D. Kersey, A. Dandridge WF3 Fiber-optic voltage sensor for gas-insulated high-voltage switch gear ...............................83 K. Bohnert WF4 All-PANDA-fiber gyroscope with erbium-doped super- luminscent fiber ...........................84 F. Suzuki, S. Yamasaki, A. Wada, R. Yamauchi WF5 Frequency stabilization of an erbium-doped fiber laser: a po¬ tential wavelength standard for optical communications . . .85 Sarah L.Gilbert WF6 Micrometer resolution in spite of dispersion in coherence-do¬ main ref lectometry ..........................86 E. Brinktneyer, C. Frömchen, and A. Kohlhaas WF7 Concatenation of polarization dispersion: relationship be¬ tween measurements before and after the installation of a long terrestrial cable .........................87 A. Galtaross, M. Schiano, C. G. Someda, B. Daino, F. Matera, R. Zaninello, F. Bergantín WG1 250-mW high-power operation and 100-mW APC aging test wiml^S-MmlnGaAsflnGaAsPMQW-DC-PBHLDs ......88 Kideki Asano, Shinji Takáno, MasahiL· Kawaraäani, Müsuhiro Kitamum, Ikuo Mito WG2 Broad wavelength tunability in gain-levered quantum-well semiconductor lasers .........................89 K.Y.Lau WG3 Investigation of the intensity noise level of a 13 mm InGaAsP DFB laser by measurement with a balanced homodyne detector .................................90 Michael A. Newkirk, Kerry J. Váhala WG4 Progress in quantum-wire lasers ..................91 EHKapon WG5 Recent progress in superlinear InGaAsP laser diodes .....92 W.Susaki WG6 High-performance analog transmission characteristics of 13- џт wavelength multople quantum-well distributed-f eedback laser ........................... 93 M. Ishino, K. Fuphara, N. Ohtsuka, N. Takenaka, T. Uno, Y. Matsui WH СОН ER ENT SYSTEMS WHl Highly sensitive 565-Mb/s DPSK heterodyne transmission ex- periemnt using direct current modulation of a DFB laser transmitter ...............................94 B. Biotteau, J. Chesnoy, B. Clesca, ]. C. Jacquinot, A. Accard, H. Bissessur, B. Ternier WH2 Transmission of 4 Gb/s on two microwave QPSK subcarriers over a coherent detection optical link ...............95 Paul Hill, Robert Ohhansky WH3 Comparison of polarization techniques in coherent systems .96 R.Noé WH4 High-performance balanced receiver module using dual P-I-N diodes and reflection coupling ...............97 H. Rodler, С. Wahl, G. GaukelF. Auracher WH5 Multichannel frequency control for multilocation network ap¬ plications ...............................98 W. B. Sessa, R. E Wagner, P. }. Lin, S. Aoki WH6 Optical Costas loop experiment using a novel optical 90° hy¬ brid module and semiconductor laser amplifier external phase adjuster .............................99 Tetsuya Miyazaki, Shiro Ryu, Yoshinori Namihiro, Hiroharu Wakabayashi WH7 Linewidth influence on 10-Gb/s optical PSK homodyne detection ...............................100 Katsushilwashita, Seiji Norimatsu Wl GIGABIT-PER-SECOND Wíl HANGMAN, a prototype multiservice gigabit-per-second NETWORKS network ...............................101 Greg Watson WI2 Gigabit-per-second wide-area computer networks: potential applications and technology challenges ............102 N. K. Cheung, H. T. Kung WI3 Metropolitan area network technology for gigabit-per-second data rates ...............................103 A. Albanese WI4 Factors inhibiting the development of high-speed networks ...............................104 Robert J . Simcoe, Robert Thomas WJ TUTORIAL WJ1 Fiber-based devices ........................105 W.J.Stewart WK TUTORIAL WK1 Optical switching ..........................106 Clemens Baack WL POSTERSESSION— WL1 Polarization optical FIBERS, CABLES, AND GLASS frequency-domain TECHNOLOGIES reflectometry ........................... . 107 S. Shatalin, R.Jusbitis, V. Listvin WL2 Etched multimode fibers as strain gauges ...........108 Mesoud Vaziri, Chin-Lin Chen Xl WL3 WL4 WL5 WL6 WL7 WL8 WL9 WLIO WM POSTER SESSION— WMl OPTOELECTRONIC AND ÍNTEGRATED-OPTICS DEVICES AND COMPONENTS WM2 WM3 WM4 WM5 WM6 WM7 Fiber-mode converters: point-by-point f abriaction of index gratings, visualization using thermoluminescence, and appli- · ino cations ................................ ΧΌ7 В. Maio, F. Bilođeau, Ό. С. Johnson, К. О. Hill Generation of interference intensity noise form fiber Rayleighbackscatter and discrete reflections .........110 Arthur F. Judy Cleaved oblique fiber endfaces for high-performance me¬ chanical splices ........................... HI V. Shah, L. Curtis, D. D. Mahoney, W. С Young Fundamental distortion characteristics of the erbium fiber amplifier ...............................112 Lian К. Chen, Kam Y. Lau, David R. Huber Development of multicount optical fiber unit for an air- blown fiber system .........................113 Hiroaki Sano, Yoshiaki Terasama, Shigeru Tanaka Hermetic erbium-doped fiber coils for compact optical ampli¬ fier modules .............................114 Akira Oydbe, Kazuto Hirabayashi, Nobuyuki Kagi, Kazunori Nahtmura High-strength hermetically tin-coated optical fibers .....115 V. A. Bogatyrjob, M. M. Bubnov, E. M. Dianov, Α. Υ. Makarenko, S. D. Rumyantsev, S. L. Semjonov, Α. Α. Sysoljatin Few-mode interferometry: new, simple, and accurate charac¬ terization method for telecommunications fibers .......116 ƒ. L. Archambault, R. J. Black, ]. Bures, F. Gonthier, S. Lacroix, С. Saravanos Narrow-linewidth and high-power 1.55-μιη multiple quantum-well distributed-feedback lasers ................................. 117 S. J. Wang, L.J. P. Ketelsen, V. R. McCrary, Y. Twu, S. G. Naph- ottz,C.Y.Kuo 20-Gb/s hybrid packaged semiconductor laser preampli¬ fier/pin photodiode detector ...................118 B. Richardson, D. M. Adams, T. Kovats, H. B. Kim Optimum design of corrugation-pitch-modulated multiple quantum-well distributed-feedback lasers for narrow spectral Imewidth ..............................119 M. Okai, T. Tsuchiya, К. Uomi, N. Chinom, Τ. Horada Large-signal multimode distributed-feedback laser model as part of an optical communication system simulation tool . . 120 F. Libbrecht, G. Morthier, R. Baets, P. Lagasse Correlation between damping and longitudinal nonunif or- mity in distributed-feedback lasers ...............121 C.Y. Km, S.J.Wang Optical square-wave generation using directional switching in a diode laser array .....,..................122 L. Y. Pang, E. S. Kintzer,]. G. Fujimoto A 7 x 20 surface-emitting laser array with uniform wave¬ length rastering ...........................123 C. ƒ. Chang-Hasmin, J. P. Harbison, L. T. Floret, J. R. WulleH, N G. Stoffdl, M.W. Moeda xii WN POSTER SESSION- SYSTEM TECHNOLOGIES WM8 Passive coupling of an InGaAsPflnP laser array and single- mode fibers using silicon waferboard ..............124 C. A. Anniento, M. Tabasky, C.Jagannath, T. W. Fitzgerald, C, L. Shieh, V. Barry, M. A. Rothnmn, P. O. Haugsjaa, R. Holmstrom, E. Méland, W. Powazinik, H. F. Lockwood WM9 Determination of the gain compression coefficient of GalnAsP 1.5-μτη multiple quantum-well lasers by harmonic distortion measurements .....................125 A. Olivier, P. Brosson, J. Benoit, В. Fermer, M. Cailhanou, D. Ledere WMIO Temporal response of millimter-wave photodiodes by model fitting to scalar optical and vector return-loss measurements ............................126 D. A. Humphreys, A. J. Baden Fuller, M. Runham, f. Schläfer WM1 1 Uniform lasing characteristic of 1.3-μΐη multiple quantum- well Fabry-Perot laser diodes over а г-іп.-аіатеіег wafer with excellent high-tempera ture operation ...........127 H. Kamei, H. Hayashi, Y. Michitsuji, M. Takahashi, M. Moeda, H. Okuda WNl All-fiber optical frontend for a balanced polarization-diver¬ sity receiver .............................128 M. Eisenmann, E. Weidel WN2 High-resolution coherent frequency-domain ref lectrometry using continuously tuned laser diodes .............129 E. Brinkmeyer, U. Blombitza WN3 Polarization-independent grating-type optical spectrum an¬ alyzer with fiber interface .....................130 M. Shirasaki, R. Yamamoto, Y . Watanabe, S. Nishina WN4 GaAs 1С chip set for optical receiver of gigabit data communi¬ cation .................................131 Tomihiro Suzuki, Yasuki Mikamura, Hiroyuki Oyabu, Shigeru Inano, TakashiNakäbayashi, Eiji Turnura, Hirotaka Takahashi WN5 Polarimetrie optical fiber sensor with self-referencing interro¬ gation .................................132 A. D. Kersey, M. ]. Marrone WN6 Performance analysis of fiber-optic links for millimeter-wave communication satellites .....................133 D. M. Polißo, S. Mahne, A. S. Daryoush, R. Kunath WN7 Time-domain measurement of chirp suppression for a multi- section distributed-f eedback laser ................134 D. M. Baney, P. B. Gallion WN8 Fault-locating technique for in-service 1:98 branced optical networks using an amplified optical time-domain reflectometer ............................135 Izumi Sankawa, Shin-ichi Furukawa, Yahei Key amada, Hishasi burnita WN9 Optically powered optoelectronic 2x2 bypass/exchange switches with polarization routing ...............136 M. Goviudarajan, L. Cheng, S. R. Fönest, A. A. Sawchuk Xlii PDP Postdeadline poster paper session THURSDAY, FEBRUARY 21, 1991 ThA INTERCONNECTION TECHNOLOGY ThB WAVEGUIDING DEVICES ThC MULTICHANNEL SYSTEMS ThD SUBSCRIBER LOOP NETWORKS: 1 ThAl Accurate measurement of stractural parameters of single fiber connector ferrule .......................137 Muneaki Ueki, Yasuji Hattori ThA2 Statistical method for predicting connector loss in the field using factory measurements ...................138 Halina Kosiorska, Bennett Wong, Costas Saravanos ThA3 Modal interference in a short fiber section: fiber length, splice loss, cutoff, and wavelength dependences .......139 K. Abe, У. LaCroix, L. Bonnal, Z. Jakubczyk ThA4 Plastic mechanical splice for fiber ................140 Stem Lischynsky, Helmut Lukas, Robin Mclntyre, Grant Pacey ThA5 Extreme environmental testing of a new mechanical splice . 141 David L. Dean, Jr. ThBl Integrated acoustically tunable optical filters: devices and ap¬ plications ..............................142 D. A. Smith, ]. J. Johnson, J. E. Baran, К. W. Cheung, S. С. Liew ThB2 InGaAsP/InP buried rib waveguide vertical coupler filter . 143 R. C Alferness, L. L. Buhl, U. Koren, B. L Miller, M. Young, T. L. Koch ThB3 Ultra-narrow bandwidth MVInGaAsP directional coupler filter .................................144 Chi Wu, С Rolland, N. Puetz, K. D. СЫк, J. Aí. Хи ТћВ4 Efficient 45* polarization converter on (llO)InP ........145 F. ZamMsian, С Ańigue, F. Gáborit, F. Mottot, J.-L. Peyre, C. Labourie, L, Le Gouezigou ТћВ5 Broadband reset-free automatic polarization controller . . . 146 F. Heismann, M. S. Yflmlen ThCl Eight-channel coherent TV distribution system with all-fiber optical frontends ....................,.....147 Li. Hilbk, H. Bunning, M. Burmeister, E. Grossmann, Th. Hermes, В. Нот, Р. Mássner, F. Raub, ƒ. Saniter, F. Schmidt, F. J. Westphal ThC2 Heterodyne video transmission using differentially encoded quadrature phase shift keying ..................148 Richard Gross, Robert Olshmsky ThO lOO-Channel optical frequency-division-multiplexing trans¬ mission technology .........................149 Hiromu Toba, Kyo Inoue, Kazuhiro Oda, KhjoshiNosu ThC4 Constraint of mode partition induced noise on transmission distance of high-capacity EM-SCM video transport system . 150 G. ƒ. Meslener, V. S. Shukla, M. Murphy, R. F. Reams ThDl Fiber in the loop .................................. 151 Paul W. Shumate XIV ThE TUTORIAL ThF STARTING A BUSINESS IN OPTOELECTRONICS ThG FIBER RELIABILITY ThH DIRECT-DETECTION SYSTEMS Thl OPTICAL MODULATION ThD2 Subcarrier multiplexed broadband service network .....152 R. Olshansky, V. Lanzisera, S. Su, R. Gross ТЫЭЗ High-capacity broadcasting over an optical local network . . 153 A. M. Hill, D. B. Fayne, R. Wyatt, }. F. Massicott, H.}. Blyth, D. S. Forrester, R. A. hobbelt, P. }. Smith ThD4 Realistic short-term scenario for the deployment of broad¬ band fiber-to-the-home systems .................154 Gregers Mogensen ThEl Erbium-doped fiber amplifiers ..................155 Emmanuel Desurvire ThF .....................................156 ThGl Lifetime predictions f or optical fibers .............157 H. H. Yuce, P. L. Key, P. J. Lemaire ThG2 Effect of solutes on the fatigue behavior of silica optical fiber .............................158 M.John Matthezoson, Bochten Lin, Vincenzo V. Rondinella ТЬСЗ In situ continuous monitoring of carbon hermetic coating thickness ...............................159 D. H. Smithgall, R. E. Frazee, ]r., D. R. Edmonston ThG4 Hermetic splice overcoating ...................160 Oaryl Inniss, John Krause ThHl Novel 565-Mb/s optically dumped matched filter pho- toreceiver ..............................161 S. D. Walker, S.Fenning ThH2 Direct detection of closely spaced optical FM frequency- division-multiplexed gigabit-per-second microwave PSK signals ................................162 W. I. Way, Y. H. Lo, T. P. Lee, C. Lin ТћНЗ Effect of gain saturation on receiver sensitivity in multi¬ channel frequency-shift-keying direct-detection systems using erbium-doped fiber preamplifiers ............163 A. E. Willner, E. Desurvire ThH4 Ultra-low receiver sensitivity at 23 Gb/s with 1480-nm diode- pumped erbium-doped fiber preamplifier ...........164 P. M. Gabla, S. Gauchara, I. Neubauer,}. Auge, Ph. Bousselet, A. Oursin ThH5 High-speed temporal characteristics of semiconductor optical amplifiers ..............................165 H. Izaäpanah, D. Chen, A. Elrefaie, L. Reith, Chinlon Lin, S. Tsuji, H. Inoue Thll Variation of frequency chirp with wavelength in an InGaAs- P/InP multiple quantum-well waveguide electroabsorption modulator ..............................166 M. S. Whalen, T. H. Wood, B. I. Miller, U. Koren, C. A. Burrus, G. Raybon XV ThJ TUTORIAL ThK TUTORIAL ThL SOLITONS ThM ERBIUM-DOPED FIBERS: 1 ThN SUBSCRIBER LOOP NETWORKS: 2 ТЫ2 High-frequency modulation of strained-layer multiple quan¬ tum-well optical amplifiers ....................167 li. Koren, В. I. Miller, M. G. Young, T. L. Kodt, R. M. Jopson, A. H. Gnaudc, J. D. Evankow, M. Chien ThB Traveling-wave semiconductor waveguide modulators . . .168 Ian Bennion ТЫ4 Large-extinction-ratio, wide-optical-bandwidth field-induced guide/antiguide modulator ....................169 Т. С. Huang, Y. Chung N. Dagli, L. A. Colaren ТЫ5 New integrated-optic modulator design for AM video trans¬ mission ................................170 G. S. Maurer, P. W. Cornish, R. A. Becker Thjl Broadband networking ......................171 BìdmraD.GìUm ThKl Operations and maintenance issues in a SONET fiber network ...............................172 John Sergo, JeffGoddard ThLl Dynamic soliton communication ................173 Masataka Nakazowa TKL2 Simple long-distance, multi-gigabit-per-second data transmis¬ sion systems using solitone ....................174 T. Hauff, W. Heinlein ThI3 Long-distance amplified soliton systems: a novel modulation concept ................................175 K.J. Blow, N.J. Doran ThMl Characterization and modeling of unsaturated amplified spontaneous emission in erbium-doped fiber amplifiers . . 176 E. Desurmre, M. Zirngibl, H. M. Presby, D. DiGiovanni ThM2 Limits for pump efficiency in erbium-doped fiber amplifiers pumped at 0.98 and 1.48 μηι ....................177 Bo Pedersen, Anders Bjarklev, Kristen Dybdal, Carl Christian Larson ThM3 Progress in the optimization of erbium-doped fiber amplifiers ..............................178 Richardi, laming, David N. Payne, Massao laåiibana ThMt Temperature characteristics of noise figure of erbium-doped fiber amplifiers ...........................179 Y. H. Cheng, N. Kagi, A. Oyobe, H. Hiramatsu, K. Nakamura ThM5 High-gain-limiting erbium-doped fiber amplifier with over 30 dB of dynamic tange ..................... .180 W. L Way, Ό. Chen, Μ. Α. Seift, M. J. Andrejco, A. Yi-Ym, Α. Von Lehman, C. Lin ThNl Technology options for passive optical networks ..........................181 J. К Stern хп ThN2 ThN3 ThN4 ThO DETECTORS ThP TUTORIAL ThOl ThO2 ThO3 ThO4 ThO5 ThPl Demonstration of an all-optical loop/interoffice architecture connecting passive optical networks to a broadband switching hub ............................182 Stuart S. Wagner, Henri E. Tohme, Thomas E. Chapman, Ronald С Menendez, Mansoor A. Saifi TBOSS — a transparent business optical subscriber system with full duplex multiaccess provided by tunable coherent single-laser transceivers ......................183 Giok-Djan Khoe RACE project R1010 — coherent multicarrier transmission and switching for an optical frequency multiplexed broadband network ...............................184 G. Heydt, G. D. Khoe, S. Roe, A. Ebberg Flip chip assembly of photonic devices .............185 M.J. Wale Flip-chip InGaAs avalanche photodiode with ultra-low capac¬ itance and large gain-bandwidth product ...........186 T. Mikawa, H. Kuwatsuka, Y. Kito, T. Kumai, M. Makiuchi, S. Yamazaki, O. Wada, T. Sfarai Planar IrűVInGaAs avalanche photodiodes with a gain- bandwidth product exceeding 100 GHz .............187 I. E. Tarof High-efficiency waveguide InGaAs pin photodiode with bandwidth of greater than 40 GHz ................188 Kazutoshi Kato, Susumu Hata, Atsuo Kozen, Jun-ichi Yoshida Photodetector bandwidth reduction and signal distortion . . 189 K. ]. Williams, R. D. Esman, T. F. Carruthers Narrow-linewidth lasers with broad tuning capability P. Kuindersma .190 FRIDAY, FEBRUARY 22, 1991 FA ERBIUM-DOPED FIBERS:2 FAI Fiber-based amplifiers: progress in 1990...........................191 J. R. Simpson FA2 Fluorescence line narrowing in erbium-doped fiber amplifiers ..............................194 Stephen С Guy, Robert A. Minansian, Simon Ђ. Poole, Mark G. Sceats FA3 980-nm diode-pumped Er-doped fiber optical amplifiers with high gain-bandwidth product ..................195 G. Grasso, F. Fontana, A. Righetti, P. Scrivener, P. Turner, P. Maton FA4 Tunable Er3 * fiber laser utilizing intracore Bragg reflectors ...............................196 G. A. Bali, W. W. Morey,}. P. Waters FA5 Compact, highly efficient, and powerful 1.48-μπι diode- pumped broadband superfluorescent fiber source at 1.55 μΐη ..............................197 H. Février, J. F. Marcerou, P. Boussełet, J. Auge, M. jurczyszyn XVII FA6 FA7 FA8 FB ADVANCED OPTICAL FBI SOURCES: 2 FB2 FB3 FB4 FB5 FB6 FB7 FC MEASUREMENT TECHNOLOGIES FD TUTORIAL FC1 FC2 FC3 FC4 FC5 FC6 FD1 Er3+ doped ЄеОг-СаО-АігОз silica core fiber amplifier pumped at 813 nm .........................198 M. Saifi, M. J. Andrejco, W. I. Way, A. Von Lehman, A. Yi-Yan, С Un, F. Bilodeau, К. О. Hill Performance of a distributed erbium-doped dispersion- shifted fiber amplifier .......................199 }. R. Simpson, H. T. Shang, P. С Becker, L. F. Mollmauer, N. A. Olsson, M. ]. Neuheit, К. S. Kranz, P. J. Lemoire Distributed erbium-doped fiber for lossless link applications .............................200 S. T. Dawn/, D. L. Williams, B. ]. Ainslie Polarization-independent semiconductor optical amplifier module using twin graded-index rod lenses ..........201 Т. ТоуопаЫ, S. Tsuji, M. Haneda, Y. Ono Extremely narrow linewidth 1.5-μΐη multiple quantum-well distributed Bragg reflector lasers entirely grown MO VPE . . 202 Y. Matsui, T. Kunii, H. Horikaxoa, T. Kamijoh High-power multiple quantum-well optical amplifiers . . .203 G. Eisenstein,}. M. Wiesenfeld, U. Koren, G. Raybon Thermal contribution to wavelength tunability of multi- electrode DîB lasers ........................204 J. Jacquet, A. Olivier, D. Leckre,}. Benoit, О. Le Gouezígou, L. Le GouezigouJ.-L. Lievin Depolarized source for fiber-optic applications ........205 W. K. Burns, R. P. Moeller, С H. Bulmer, A. S. Greenblatt 1.54-μιη high-power diode-pumped erbium laser .......206 D. W. Anthon, T. J. Pier, P. A. Leilabady Frequency-stabilization scheme for DFB laser diodes using acetylene absorption lines in 1.51-1.55 џхп ...........207 Shoichi Sudo, Yoshihisa Sakai, TetsuhiL· Ihegami Novel high-bandwidth method for measurement of the fringe visibility in two-beam interferometers .........208 My Arie-, Moshe Tur High-precision fiber-optic position sensor system using ladar techniques ..............................209 Edward ]. Vertatschitsch, Gregory L. Abbas, Michael de La Chapelle, Charles R. Porter Optical clock distribution using a mode-locked semiconduc¬ tor laser diode system .......................210 Davis H. Hartman, Peter J. Delfyeit, S. Zuber Ahmed New passive polarization scrambler for lightwave systems . 211 M. W. Maeda, D. A. Smith Myth: Optics is fast, electronics is slow .............212 David A4. Bloom High-resolution optical frequency-domain ref lectometry . .213 David W. Dolfi AM video transmission ......................214 Richard B.Childs XVIII FE MULTIPLE-ACCESS NETWORKS FF TUTORIAL FEI Digital subcarrier multiple-access over passive optical net¬ works for narrowband and broadband subscribers ......215 D, Mestdagh, С Sierens, G. Van der Plas FE2 Five-channel 1-Gb/s aggregate throughput subcarrier applications .............................216 Richard J. S. Bates, Young H. Kwark FE3 Logically rearrangeable multihop lightwave networks ...217 A. S Acampara,]. -F. P. Labourdette FE4 Multiple-channel routing in a linear lightwave network . . 218 Krishna Bala, Tfanuis E. Stern FE5 Analysis of multiple-channel optical bus networks using doped fiber amplifiers .......................219 Rajiv Ramaswami, Karen Liu FE6 Channel capacity simulation for a chirp-limited dense WDMA system using OOK modulation and optical filters .................................220 C.-S. Li, F. Tong, К. Liu, D. G. Messerschmitt FFl Integrated-optic and hybrid optoelectronic devices on silicon ...............................221 Charles H. Henry XIX Key to Authors and Presiders 223 Abbas, Gregory L - FC2 АЬе.У.-ТгіАЗ Acampora, A. S. - FE3 Accard, A.-WH1 Ackley, Donald E.-WB Adams, D.M.-WM2 Adar, R.-TUF5 Aga, Keigo -TuBI, TuB2 Ahmed, S. Zuber - FC3 Aida, Kazuo-TuNe Ainslie, B. J. - FA8 Albanese, A.-WI3 Alexander, Steve - FC, WH Alferness, R. C. - ThB2, WM Amemiya, Yoshihito - TuE4 Andreadakis, N. С. -ТиРЗ, WB5 Andrejco, M. J. - ThM5, FA6 Andrekson, P. A. -WC1 Anthon, D. W. - FB6 Archambault, J. L - WL10 Arie, Ady- FC1 Armiento, С. Α. - WM8 Artigue, C-ThB4 Asano, Hideki - WG1 Auge, J. -ThbW, FA5 Auracher, F. - WH4 Dunning, H. — ThC1 Baden Fuller, A. J. - WM1 0 Baets, R. - WM4 Bahsoun, Samia M. -TuHI Bala, Krishna -FE4 Ball, G. Α. - FA4 Baney, D. M.-WN7 Baran, J. E. -ThBI Barry, V. - WM8 Basch, E. Bert - ТиС Bates, Richard J. S. - FE2 Becker, P. С. - FA7 Becker, R. A.-ThlS Bennion, lan — ТЫЗ Benoit, J. -WM9.FB4 Bergamin, F. - WF7 Berkoff,T.A.-WF2 Berthold, Joseph E. -TuP Best, AlexB.-TuU Bhagavatula, Venkata A. — FF Bhat, R. -TUB4, TuB5, WB5 Bllodeau, F.-WL3, FA6 Biotteau, B.-WH1 Bissessur, H.-WH1 Bjarklev, Anders - ThM2 Black, R.J.-WL10 Blank.LC.-TuOI Blonder, G. E.-TuFS Bloom, David M. - FC5 Blow, K.J.-ThL3 Blyth, К.Ј.-ТЋОЗ Bodeep, G. E. - TuC4 Bogatyrjov, V. A. - WL9 Bohnert, K.-WF3 Bonneil, L. -ТпАЗ Bousselet, Р.-ТПН4, FA5 Bracke«, Charles A. - ThJ Brain, M. С.-ТиНг Brinkmeyer, E. - WF6, WN2 Brosson, P. - WM9 Bubnov, M. M. - WL9 Вису, W. E.-WD1 Buhl, LL.-ThB2 Buimer, С. H. - FB5 Bures.J.-WĽIO Burmeister, M. - ThC1 Burns, W. К. - FB5 Burrus, CA.-TuF2,Thl1 Campbell, Joe С. - ThO Carruthers, T. F. -ТЮб Chandrasekhar, S. -ТиВЗ Chang, G.-K.-TUB4, ТиВ5 Chang-Hasnain, С. J. — TuF1, TuF3, WC3, WM7 Chang, Hung-chen -TuEl Channln, Donald - TuA, TuJ Chapuran, Thomas E. -ТпЫг Chen, Chin-Lin -WL2 Chen, D.-ThH5,ThM5 Chen, Lian К. - WL6 Chen,Y.K.-TuN4 Cheng, L-WN9 Cheng, Y.H. -ThM4 Chesnoy,J.-WH1 Cheung, K.W.-WB5,ThB1 Cheung, N. K.-WI2 Chiddix, James A. -TuCI, ThC Chien, М.-ТЫ2 Chik, K. D. -ТгіВЗ Childs, Richard В. -ТиСб, FD1 Chin, M.A.-TUN4 Chinone.N.-WMS Choa, F.S.-TUF2 Chraplyvy, Andrew R. - TuH, TuK4, TuO Chung, Y.-ThW Cimini, Jr., L. J. -TUC2 Cipollai, Jr., J.W.-WA3 Claus, Richard O. - TuE2, TuM5 Clausen, Jr., E. M. -TuFI Clesca, B.-WH1 Coldren, L. A. - Th!4 Cordaro.W.-WDI Cornish, P. W.-Th!5 Curtis, L -WL5 Dagli, N.-Thl4 Daino, B.-WF7 Dandridge, A. - WF2 Dapkus, P. D. - WB3 Darcie, T. E.-TUC4 Daryoush, A. S. - WN6 Davey, S. T. - FA8 de La Chapelle, Michael - FC2 Dean, Jr., David L - ThA5 Delfyett, Peter J. - FC3 DeMario, G. - WD1 Derosier, R. M. -TUK4 Desurvire, Emmanuel - ThE1 , ThM1 Desurvire, R. -ТІіНЗ Devito, M. - WB1 Dianov, E. M.-WL9 DiGiovanni, D. J. -ThMI, WA2 Dolf i, David W. - FC6 Doran, N.J.- ThL3 Dursin, A.-ThH4 Dybdai, Kristen -ThM2 Ebberg, Α.- ThN4 Edge, С. - ТиН5 Edmonston, D. R. - ThG3 Eichen, Elliot -ThB Eisenmann, M. - WN1 Eisenstein, G. - FB3 Elliot, J.C. -WD1 Elrefaie, A.-ThH5 Eng.KaiY.-WD4, WK Esman, R. D.-ThO5 Evankow, J. D.-TM2 Fan, B.-TUF7 Favire, F. - WB5 Fellows, David M. - TuL Fenning, S. -ThHI Fermann, M. E. — TuK1 Fernler, B.-WH1.WM9 Février, H. - FA5 Fishman, Daniel A. —TuHI Fitzgerald, T. W. -WM8 Flagello, D. -TuFľ Florez, L. T. - TuF1 , TuF3, WM7 Fontana, F. - FA3 Forrest, S. R.-WN9 Forrester, D.S.- ThD3 Fortenberry, R. M. - WD3 Främchen, C.-WF6 Franzén, Douglas L. - WF Frazee, Jr., R. E. -ThGS Freeze, Jim D. - TuM4 Frigo, N.J.- TuC4 Fujihara, K. - WG6 Fujimoto, J. G. - WM6 Fujfta, S. -ТиОг Funemizu, M. - WB4 Furukawa, Shin-ichi - WN8 Gabia, P.M.-ThH4 Gáborit, F. -ThB4 Gailhanou, M. - WM9 Gailton, P.B.-WN7 Gattarossa, A. - WF7 Gardner, William В. - TuG, WAS Gauchard, S.- ТћН4 224 Key to Authors and Presiders Gaukel, G. - WH4 Gelorme.J. D.-TuFľ Georgiou, Christos J. - WD1, WD2 Gilbert, Sarah L-WF5 Gimlett, James L - TuB5, ThH G rtlin, Richard D.-ThJI Gtombitza, U. - WN2 Gnauck, А. Н.-ТЫ2 Gonthier, F.-WL10 Gopal, Inders. -ThK Gouezigou, L. Le -ТћВД Govindarajan, M. - WN9 Gozdz, A.S.-WB5 Grasso, G. - FA3 Greenblatt, A. S. - FB5 Grodzinski, P. - WB3 Gross, Richard - ThC2, ThD2 Grosskopf, G.-TUN5 Grossmann, E. — ThC1 Günther, Michael F. -TUE2 Guy, Stephen С - FA2 Ha, W. L - WD3 Habbab, I. M. I.-TUC2 Haberl, F.-TuK1 Haneda, M.-FB1 Hankey, J. - TuH5 Harada,T.-WM3 Harbison, J. P. - TuFI , TuF3, WM7 Hartman, Davis Η. - FG3 Hata, Susumu - ThO4 Hattori, Yasuji - ThA1 Hauff,T.-ThL2 Haugsjaa, Р. О. - WM8 Hayashi, Hideki -TuBI, TuB2, WM1 1 Hayashi, Yoshihiro - TuH4 Hayes, J. R. -TUB4, TuB5 Heiniein, W. -ТМ-г Heismann, F. -ThBS Henmi,N.-TuO2 Henry, Charles H. - TuFS, FF1 Heritage, J. Р. -ТиКЗ Hermes, Th. -ThCI Heydt, G.-ThN4 Hilbk, U.-ThCI Hill.A. M.-ThDS Hill, Kenneth О. - TuE, WL3, ThD3 Hü!, Pau!-WH2 Hirabayashi, Kazuto - WL8 Hiramatsu, H. — ThM4 Hirayama,Y.~WB4 Hoen, B.-ThCI Hofer, M.-TuKI Holmstrom, R. - WM8 Hong,W.-P.~TuB4,TuB5 Horikawa, H. - FB2 Hoshino, S.-TuFS Huang, T.C.-ThW Huber, David R. - ТиСЗ, WL6 Humblet, Pierre A. - FE Humphreys, D. Α. - WM10 Ikegami, Tetsuhiko - FB7 Imai, Takamasa - TuH4 Imamura, Saburo -TUF6 Inano, Shigeru - WN4 Inniss, Daryl - ThG4 lnoue,H.-ThH5 Inoue, Куо-ТІіСЗ Iqbal, Muhammed Zafarnn - ТиОЗ, WB5 lshikawa,S.-WA4 lshino,M.-WG6 Ishio, Hideki -ThL Ito.M.-TuFS Ito, Takeshi - ТиН4 Iwashtta, Katsushi - WH7 Iwata, Atsushi -TUE4 Izadpanah, H. -ThHS Izawa, Tatsuo -TuFS Izumita, Hisashi—WN8 Jacquet, J. - FB4 Jacquinot, J.-C. - WH1 Jagannath, С -WM8 Jain, Raj - ТиІ4 Jakubczyk, Z. -ТпАЗ Janniello, Frank J. - ТиМЗ Jensen, Michael A. — TuM4 Jewell, J. L -TUF1.TUF2 Jinguji, Kaname - TuF4 Jinno, Masahiko - TuN1 , TuN2, TuN3 Johnson, D. C. - WL3 Johnson, H.A.- WC3 Johnson, J. J. — ThB1 Jopson, R. M. -TUK4, Thl2 Juan, Wen-nan-TuEl Judy, Arthur F. - WL4 Jurczyszyn, M. - FA5 Juskaitis, R. - WL1 Kagi, N. -ТћШ Kagi, Nobuyuki - WL8 Kamei, Hidenori - TuB1 , TuB2, WM1 1 Kamijoh, T. - FB2 Kanamori, H. -TuFe, WA4 Kapon, EH-WG4 Karol, Mark J.-TuPI Kato, Kazutoshi-ThO4 Kawachi, Masao- TuF4, TuG1 Kawaradani, Masahiko - WG1 Kearns, R. F. - ThC4 Kersey, A. D. - WF1 , WF2, WN5 Ketelsen, L J. P.-WM1 Key, P. L. - ThG1 Khoe, Gfok-Djan- ThD, ThN3, ThN4 Kilián, A. - WA3 Kim,H.B.-WM2 Kintzer, E. S. - WM6 Kistter, R. C. - TuFS Kitamura, Mitsuhiro - WG1 Kito,Y.-Th02 Klein, A.A.- WA5 Knudson, Don -Wl Koch, T. L. - Tu F2, ThB2, Th I2, WD4, WG Koga, Masafumi-TuE4 Kohlhaas, A.-WF6 Koren, U. - TuQ, ThB2, ThH, Thl2, FB3 Kosiorska, Halina - ThA2 Kovats, T. - WM2 Koyamada, Yahei - WN8 Koza, M. A. - WB5 Kozen, Atsuo - ThO4 Kranz, К. S. - FA7 Krause, John -Th^ Kubota, Hirokazu - TuK2 Kumai,T.-ThO2 Kunath, R.-WN6 Kung, H. T. -WI2 Kunii, T. - FB2 Кио, С. Y. - WM1 , WM5 Kurokawa, Kenji - ТиК2 Kushibe, M. - WB4 Kuwatsuka, H.-ThO2 Kwark, Young H. - FE2 Kyoto, M.-WA4 Labourdette, J.-F. P. - FE3 Labourie, C.-ThB4 LaCourse, Joanne S. -TuQI Lacroix, S.-WL10 LaCroix.Y.-ThAS Lagasse, P. - WM4 Laming, I. Richard -ТћМЗ Lanzisera, V. - ThD2 Larsen, Carl Christian -ThM2 Larsen, T. A. - WD1 Larson, D. R. - TuG2 Lau, Kam Y. - WL6, WG2, FB Le Gouézigou, L. - FB4 Le Gouézigou, О. - FB4 Leach, J. S. -TuMI Ledere, D.-WM9.FB4 Lee, H.-TUB4 Lee, T. P. - TuF2, TuF3, WB5 Lee, Y. H.-TUF2 Leheny, Robert F. -TuB Leilabady, P. A. - FB6 Lemaire, P. J. - ThG1 , FA7 Lemberg, Howard L. - ThN Li.C.-S.-WC^ FE6 Liévin, J.-L. - FB4 Libbrecht, F. - WM4 Lïew, S. C. -ThBi Lin, Bochien -ШЗг Lin, Chinlon -TuBS, WC3, ThH2, ThH5, ThM5, FA6 Lin, P. J. - WH5 Un, P. S. D.-WB5 Lischynsky, Steve -ThA4 Listvin, V. - WL1 Liu, Karen - FE5, FE6 Lo,Y.H.-ThH2 Key to Authors and Presiders 225 Lobbett, R. A.- Lockwood, H. F.-WM8 Logan, R. A.-ÏUN4 Lowe, Richard - WA Lu, Chung-li-TuEl Lucky, R.W. -Tu A1 Ludwig, R. -TuNö Lukas, Helmut -ТІ1А4 MacChesney.J. B.-WA2 Maeda, M. W. - WC3, WM7, WM11, FC4 Mahoney, D. D. - WL5 Major, J.-WB1 Makarenko, A.Y.-WL9 Makiuchi, M. - ThO2 Malo, В. - WL3 Malone, K. J.-TUG2 Malone, S. - WN6 Mao, X. P. -Tuia Marcerou, J. F. - FA5 Marcuse, D. — TuC4 Marrone, M. J. - WN5 Massico«, J. F. -ТгШЗ Matera, F.-WF7 Maton, P. - FA3 Matsui, Y. - WG6, FB2 Matsumoto, Takao - TuE4, TuN1 , TuN2 Matthewson, M. John - ThG2 Maurer, G. S. - Thf5 May, Russell — TuM5 McCrary, V. R. - WM1 Mclntyre, Robin —ThA4 Meissner, P.-ThCI Meland, E.-WM8 Meltz, G. - TuM2 Menendez, Ronald С. -ТпЫг Menocal, S. G. - WB5 Meslener, G. J.-ThC4 Messerschmitt, D. G. - FE6 Mestdagh, D. - FE1 Michitsuji.Y.-WMH Mikamura, Yasuki — WN4 Mikawa.T. -ТИО2 Miki, Tetsuya - WC5 Miller, B.I.-ThB2,Thl1,Thl2 Miller, Calvin M. -TuA, TuM3 Minasian, Robert A. - FA2 Mito, Ikuo-WGI Miya, Tetsuo — TuG1 Miyazaki, Tetsuya - WH6 Moeller, R. P. - FB5 Mogensen, Gregers-^04 Mollenauer, L F. - WE1, FA7 Mollot, F.-THB4 Montalvo, Rafael M. - Tul2 Morey.W. W.-TUM2, FA4 Morinaga, M. -WB4 Morioka, T. - TuN2 Morse, T. F. - WA3 Morthier, G. - WM4 Murata, Michio- TuB1, TuB2 Murphy, Kent A. -TUE2 Murphy, M. -ТГІС4 Nagel, Jonathan A. - TuH1 Nakabayashi, Takashi - WN4 Nakamura, Kazunori-WL8, ThM4 Nakamura, M. - WB4 Nakamura, S. -ТиЕЗ Nakazawa, Masataka-Tu^, ThL1 Namihira, Yoshinori - WH6 Napholtz, S. G. - WM1 Neubauer, I. -ThH4 Neubelt, M.J.-FA7 Newkirk, Michael A. - WG3 Nguyen, С. К. - ТиВ4, ТиВ5 Nishina, S. -WN3 Noé, R.-WH3 Nolan, Daniel Α. - TuE5, ТиМ Norimatsu, Seiji - WH7 Nosu, Kiyoshi-ThCS O Byrne, Vincent A. - TuC5 Oda, Kazuhiro - ThC3 Ohga, Y. - WA4 Ohkawa, Norio - TuH4 Ohmori, Yasuji — TuG1 Ohtsuka, N. - WG6 Ohyama, І. -ТиЕЗ Okai, M.-WM3 Okuda, H. -WM 11 Olivier, Α.- WM9, FB4 Olshansky, Robert -WH2, ThC2, ThD2 Olsson, Anders — WE Olsson, N. A. -TuFS, WC1, FA7 Ono, Y. - FB1 Onomura, M. - WB4 Oprysko.M. M.-TUF7 Orenstein, M.-TuFI Osinski, J. S. - WB3 Owen, M.-TUH5 Oyabu, Hiroyuki - WN4 Oyobe, A.-WL8,ThM4 Pacey, Grant -ThA4 Pang, L. Y. - WM6 Park.Y. К.-ТиНЗ Patel, J. S. - WC3 Patterson, David R. - WC, FD Payne, D. В. -ТпОЗ Payne, DavidN. -ТпМЗ Pedersen, Во-ТпМг Peyre,J.-L-ThB4 Phillips, M. R.- ТиС4 Pier, T. J. - FB6 Pike, Ѕ.-ТиЊ Piano.W.-WBI Polifko, D. M. - WN6 Poole, Simon B. - FA2 Porter, Charles R. - FC2 Powazinik, W. - WM8 Presby, H. M.-ThMI Puetz, N. ~ThB3 Rae, S. - ThN4 Ramaswami, Rajiv- FE5 Raub, F.-ThCI Raybon, G. -Thl1,FB3 Reinhart, L-WA3 Re rth, L-ThH5 Renner, Daniel-TuF Richardson, B. - WM2 Righetti, A. - FA3 Risen, Jr., Wm.-WAS Rodler, H. - WH4 Rolland, C-ThB3 Rondinella, Vincenzo V. - ThG2 Rothman, Μ. Α.- WM8 Rumyantsev, S. D. - WL9 Runham, M. -WM10 Ryu, Shira-WHB Sachs, Martin W. - WD, WD1 Saifi, Mansoor Α. -ThE, ThG, ThM5, ThN2, FA6 Saito, T.-TuO2 Sakai, Yoshihisa - FB7 Saleh, Walid-TuMS Sanford, N. A.-TUG2 Saniter, J.-ThCI Sankawa, Izumi - WN8 Sano, Hiroaki-WL7 Santoro, Mario Α. - WD4 Saravanos, Costas -WL1 0, ThA2 Saruwatari, M. -TuN2 Sasaki, Goro - ТиВ1 , ТиВ2 Sato, Kenji - WC2 Sawchuk, Α. Α. - WN9 Sceats, Mark G. - FA2 Schanbel, R.-TuNö Scherbath, Darrell -ТиІЗ Scherer, Α.- TuF1 Schiano, M. - WF7 Schlafer, J. -WM1Q Schmidt, F. - ThC1 Schunk, N. -TUN5 Seif res, D. - WB1 Scrivener, P. - FA3 Sekine, Satoshi - WC2 Self ridge, Richard H. -TUM4 Semjonov, S. L - WL9 Sessa,W.B.-WH5 Shah, V.-WL5 Shang,H.T.-WA5,FA7 Shani,Y.-TuF5 Shatalin, S. - WĽI Shieh, C. L - WM8 Shimizu, Т.-ТиЕЗ Shirai, T. - ThO2 Shirasaki,M.-WN3 226 Key to Authors and Presiders Shukla,V.S.-ThC4 Shumate, Paul A. - ThD1 , ThF Sierens, C, - FE1 Simcoe, Robert J. - WI4 Simpson, J. R. - FAI, FA7 Smith, D.A.-ThB1,FC4 Smith, P. J. -ThDS Smithgall, D. Н.-ШЗЗ Snitzer, Elias - FA Someda, С G. - WF7 Speth, A.-TuFľ Spirit, D. M. -TuOI Stem, J. R.-ThNI Stern, М.-ТиКЗ Stern, Thomas E. - FE4 Stewart, W. J. - WJ1 Stigliani, Jr., D. J. - WD1 Stoffel, N. G. - WM7 Stolen, Roger H. - TuJ1 , TuK Strahl, Mary Jane — Tuli Su,S.-ThD2 Sudo, Shoichi - FB7 Sugita, Akio -TUE4 Susaki, W. - WG5 Suzuki, F. - WF4 Suzuki, N. - WB4 Suzuki, Tomihiro - WN4 Sysoljatin, A. A. - WL9 Szentesi, Otto - ThA Tabasky, M.-WM8 Tachibana, Маѕао-ТпМЗ Takada, Atsushi-TuNS Takagi, Akihiro - TuF4 Takahashi, Hirotaka- WN4 Takahasni, M.-WM11 Takáno, Shinji - WG1 Takenaka, N. - WG6 Tanaka, Shigeru - WL7 Tanbun-Ek, T.-TuN4 Tantawi, Asser N. - ТиРЗ Tantawy, Ahmed N. -ТиРЗ Tarof, L E. -ТЮЗ Tatlock, Timothy A. -TuCS Taylor, J. M.-WD1 Tell, B.-TUF2 Terasawa, Yoshiaki - WĽ7 Thijs, P.J.A.-WB2 Thomas, Robert -WI4 Tkach, R. W.-TUK4 Toba, Hiromu-WTCS, ThC3 Tobag i, F.-TUP2 Tohrne, Henri E.-ThN2 Tomita, Akira-WJ Tong, F.-FE6 Toyonaka, T. - FB1 Trewhella, J. M.-TUF7 Tseng, Liang D. - WD4 Tsuchiya, T.-WM3 Tsuji.S.-ThHö, FB1 Tucker, R. S. - WD3 Turnura, Eiji - WN4 Tur, Moshe - FC1 Turner, P. - FA3 Twu, Y. - WM1 Ueki, Muneaki-ThAI Uno, T. - WG6 Uomi, K.-WM3 Urquhart, J. -ТиНб Váhala, Kerry J.-WG3 Van Der Plas, G. - FE1 Vaziri, Masoud-WI^ Vengsarkar, Ashish M. -TUE2 Vertatschîtsch, Edward J - FC2 Von Lehmen, A. С. -TuFI, ThM5, FA6 Wada, Α. - WF4 Wada, O. -ТћОг Wagner, R. E.-WH5 Wagner, Stuart S. -TI1N2 Wahl,C.-WH4 Wakabayashi, Hiroharu - WH6 Wale, M.J.-TuH5,ThO1 Walker, J. Α. - WC3 Walker, Kenneth L. - WA1 , ThM Walker, S. D.-ThHI Wang, S. J.-WM1.WM5 Wang, S. Y.-Thl Watanabe,Y.-WN3 Waters, J. P. - FA4 Watson, Greg -WH Way, W. I. -Thhtë, ThM5, FA6 Weber, H. G. -TUN5 Weidel, E. - WN1 Welch, D.F. -WB1 Weller, Joseph F. - TuN Westphal, F. J. -ThCI Whalen, M. S.-ThB5,Thl1 Wiesenfeld, J. M. - FB3 Williams, D. L - FA8 Williams, K.J.- ThO5 Willner, A. E. -Thhtö Wluka, G. M.-WD3 Wong, Bennett -ThA2 Wood, Т.Н.- TW1 Wu, Оіі-ТІіВЗ Wu, M. C.-TuN4 Wullert.J. R.-WM7 Wyatt, R.-ThD3 Xu,J. M. -ТћВЗ Yamaguchi, M. -TUO2 Yamamoto, R. - WN3 Yamasaki, S.-WF4 Yamashita, Ichiro - WC5 Yamauchi, R. - WF4 Yamazaki, S. -ThCtë Yanagawa, H. - ТиЕЗ Yano, Hiroshi - TuB1 , TuB2 Yi-Yan.A.-ThMS, FA6 Yokota, H.-TUF8, WA4 Yoo.H.-J.-TuFI Yoshida, Jun-ichi - ThO4 Yoshimura, Ryoko - TuF6 Young, M. G.-ThB^Thß Young, W. С - WL5 Yuce, H. H.-ThGI Zah, С E. - TuF3, WB5, ThP Zamkotsian, F. - ThB4 Zaninello, R. - WF7 Zirngibl, M.-ThMI ZOU.Y.-WB3
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spelling	OFC 14 1991 San Diego, Calif. Verfasser (DE-588)5069269-0 aut Technical digest San Diego, California, February 18 - 22, 1991 OFC '91 Washington, DC Optical Soc. of America 1991 XIX, 226 S. zahlr. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturangaben Fiber optics Congresses Optical communications Congresses Optische Nachrichtentechnik (DE-588)4035624-3 gnd rswk-swf (DE-588)1071861417 Konferenzschrift 1991 San Diego Calif. gnd-content Optische Nachrichtentechnik (DE-588)4035624-3 s DE-604 Digitalisierung TU Muenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003702265&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Technical digest San Diego, California, February 18 - 22, 1991 Fiber optics Congresses Optical communications Congresses Optische Nachrichtentechnik (DE-588)4035624-3 gnd
subject_GND	(DE-588)4035624-3 (DE-588)1071861417
title	Technical digest San Diego, California, February 18 - 22, 1991
title_auth	Technical digest San Diego, California, February 18 - 22, 1991
title_exact_search	Technical digest San Diego, California, February 18 - 22, 1991
title_full	Technical digest San Diego, California, February 18 - 22, 1991 OFC '91
title_fullStr	Technical digest San Diego, California, February 18 - 22, 1991 OFC '91
title_full_unstemmed	Technical digest San Diego, California, February 18 - 22, 1991 OFC '91
title_short	Technical digest
title_sort	technical digest san diego california february 18 22 1991
title_sub	San Diego, California, February 18 - 22, 1991
topic	Fiber optics Congresses Optical communications Congresses Optische Nachrichtentechnik (DE-588)4035624-3 gnd
topic_facet	Fiber optics Congresses Optical communications Congresses Optische Nachrichtentechnik Konferenzschrift 1991 San Diego Calif.
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003702265&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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