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Integrated Optics

Proceedings of the Third European Conference, ECIO’85, Berlin, Germany, May 6–8, 1985

  • Hans-Peter J. Nolting
  • Reinhard Ulrich

Part of the Springer Series in Optical Sciences book series (SSOS, volume 48)

Table of contents

  1. Front Matter
    Pages I-X
  2. Applications

    1. Front Matter
      Pages 1-1
    2. S. Honkanen, S. Tammela, P. Koivisto, M. Leppihalme, M. Mäklin
      Pages 5-8
    3. A. W. Lohmann
      Pages 9-11
    4. B. G. Pantchev, A. G. Kebedjiev, I. T. Savatinova
      Pages 12-15
    5. V. Russo, S. Sottini, G. C. Righini, S. Trigari
      Pages 16-20
    6. H. George, U. Hollenbach, J. Söchtig, W. Sohler
      Pages 21-25
    7. P. O. Andersson, G. Edwall, A. Persson, L. Thylén
      Pages 26-28
  3. Material and Fabrication

    1. Front Matter
      Pages 29-29
    2. I. Ben-David, S. Berlowitz, M. Itzkowitz, S. Ruschin, N. Croitoru
      Pages 34-37
    3. J.-C. Baumert, C. Walther, P. Buchmann, H. Melchior, P. Günter
      Pages 44-48
    4. E. Pross, H. Dammann, W. Tolksdorf, M. Zinke
      Pages 49-52
    5. J. P. Nisius, P. Hertel, E. Krätzig, H. Pape
      Pages 62-66
  4. Semiconductor-Devices

    1. Front Matter
      Pages 81-81
    2. Yasuharu Suematsu
      Pages 82-98
    3. M. Glick, F.-K. Reinhart
      Pages 99-102
    4. S. Hausser, E. Zielinski, H. Eisele, H. Schweizer, M. H. Pilkuhn, M. Rosenzweig
      Pages 103-107
    5. J. P. Van de Capelle, R. Baets, P. E. Lagasse
      Pages 112-116
    6. C. Bornholdt, W. Döldissen, D. Franke, J. Krauser, U. Niggebrügge, H.-P. Nolting et al.
      Pages 121-125
    7. Bjorn Broberg, Sekartedjo Koentjoro, Kazuhito Furuya, Yasuharu Suematsu
      Pages 131-134
    8. P. Buchmann, H. Kaufmann, H. Melchior, G. Guekos
      Pages 135-139
  5. Modulators

  6. Fundamentals and Wave Guiding

    1. Front Matter
      Pages 177-177
    2. Colin T. Seaton, George I. Stegeman, W. M. Hetherington III, H. G. Winful
      Pages 178-195
    3. G. P. Bava, I. Montrosset, W. Sohler, H. Suche
      Pages 196-201
    4. D. Eberhard, H. Bülow
      Pages 202-206
    5. S. K. Korotky, E. A. J. Marcatili, J. J. Veselka, R. H. Bosworth
      Pages 207-209
    6. W. Döldissen, H. Heidrich, D. Hoffmann, L. Thylén, B. Lagerström
      Pages 210-214
    7. H.-P. Nolting, D. Hoffmann, M. Schlichting
      Pages 215-220
    8. B. Denturck, P. E. Lagasse
      Pages 221-224
    9. W. Döldissen, H. Heidrich, D. Hoffmann, H. Ahlers, A. Döhler, M. Klug
      Pages 225-228

About these proceedings

Introduction

The development of miniaturized and ruggedized optical circuits, containing a number of optical and perhaps also electronic components integrated on the same substrate, and performing useful optical functions - this is the goal of the key technologies for future systems of communication, of instrumenta­ tion, and of general signal processing; it is expected to combine and to complement the established technologies of microelectronics, optoelectronics, and fiber-optics. Today, after more than fifteen years of research on integrated optics, this goal appears to be almost within reach. The theoretical problems of 1ight propagation and of numerous forms of coupling and interactions in integrated-optical structures are generally well understood. A great variety of single components for integrated optics has been demonstrated experimen­ tally, and more recently also the successful integration of several compo­ nents on a common substrate. Laboratory operation of such integrated-optical 'chips' has been reported, e.g., for RF spectrum analysis, for high-speed analog/digital conversion, for a fiber-optic gyro, and for various high-per­ formance semiconductor laser sources. Before commercial fabrication and technical application of such devices can take place, however, their performance has to be further improved. Se­ rious technological and material problems are still to be overcome which are related to the small transverse dimensions and high optical power densities typical for integrated-optical waveguides. Progress can be expected here by further improvements and diversifications of micro-fabrication technologies and (perhaps more efficiently) by learning how to better adapt the optical structures to the existing technologies.

Keywords

circuit communication development electronics integrated optics laser material microelectronics optics optoelectronics semiconductor signal processing

Editors and affiliations

  • Hans-Peter J. Nolting
    • 1
  • Reinhard Ulrich
    • 2
  1. 1.Heinrich-Hertz-InstitutNachrichtentechnik Berlin GmbHBerlin 10Germany
  2. 2.Technische Universität Hamburg-HarburgHamburg 90Fed. Rep. of Germany

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-540-39452-5
  • Copyright Information Springer-Verlag Berlin Heidelberg 1985
  • Publisher Name Springer, Berlin, Heidelberg
  • eBook Packages Springer Book Archive
  • Print ISBN 978-3-662-13571-6
  • Online ISBN 978-3-540-39452-5
  • Series Print ISSN 0342-4111
  • Series Online ISSN 1556-1534
  • Buy this book on publisher's site
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