Thin Films for Integrated Optics Applications: Volume 392 Hardback
Edited by Seth R. (California Institute of Technology) Marder, David M. (University of Colorado Boulder) Walba, Bruce W. (Northwestern University, Illinois) Wessels
Part of the MRS Proceedings series
Hardback
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Description
The combination of electro-optic (EO) thin films with silicon-integrated circuits provides a promising approach to creating optoelectronic integrated circuits (OEICs) capable of sending information at data rates greater than 1 Gbit/second with low power consumption.
These devices are of two basic types - very highly parallel (64K channels or greater) or very high speed (Gbits/ second/channel). Materials scientists, chemists and physicists come together in this new volume to discuss EO thin-film materials and devices, and to learn about advances in fields outside of their specific areas.
Electro-optic materials featured include organic polymers and/or multilayers, liquid crystals, and inorganic thin films.
Materials design, processing, and device issues are addressed.
Topics include: nonlinear organics; liquid crystals for integrated optics; ferroelectric thin films; Er-doped inorganic thin films; inorganic thin film waveguides.
Information
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Unavailable
- Format:Hardback
- Pages:290 pages, Worked examples or Exercises
- Publisher:Materials Research Society
- Publication Date:19/10/1995
- Category:
- ISBN:9781558992955
Information
-
Unavailable
- Format:Hardback
- Pages:290 pages, Worked examples or Exercises
- Publisher:Materials Research Society
- Publication Date:19/10/1995
- Category:
- ISBN:9781558992955