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Non-Linear Optical Polymers for Active Optical Devices

Published online by Cambridge University Press:  26 February 2011

R. Demartino ,
B. Feuer ,
S. Jacobson ,
D. Karim ,
G. Khanarian ,
J. Stamatoff ,
C. Teng  and
H. Yoon
R. Demartino
Affiliation:
Hoechst Celanese Research Division Robert L. Mitchell Technical Center Summit, N.J. 07901
B. Feuer
Affiliation:
Hoechst Celanese Research Division Robert L. Mitchell Technical Center Summit, N.J. 07901
S. Jacobson
Affiliation:
Hoechst Celanese Research Division Robert L. Mitchell Technical Center Summit, N.J. 07901
D. Karim
Affiliation:
Hoechst Celanese Research Division Robert L. Mitchell Technical Center Summit, N.J. 07901
G. Khanarian
Affiliation:
Hoechst Celanese Research Division Robert L. Mitchell Technical Center Summit, N.J. 07901
J. Stamatoff
Affiliation:
Hoechst Celanese Research Division Robert L. Mitchell Technical Center Summit, N.J. 07901
C. Teng
Affiliation:
Hoechst Celanese Research Division Robert L. Mitchell Technical Center Summit, N.J. 07901
H. Yoon
Affiliation:
Hoechst Celanese Research Division Robert L. Mitchell Technical Center Summit, N.J. 07901
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Abstract

Second order non-linear optical (NLO) polymers have been the focus of intense research effort in recent years [1]. This effort is justified by the potential value of these materials in a range of attractive optical signal processing applications with lower device costs and enhanced device performance.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 134: Symposium J – Materials Science and Engineering of Rigid-Rod Polymers , 1988 , 641
Copyright
Copyright © Materials Research Society 1989

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References

REFERENCES

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