New class of materials for optical power limiting

Martin K. Casstevens; Ryszard Burzynski; John F. Weibel; Charles W. Spangler; Guang S. He; Paras N. Prasad

doi:10.1117/12.284161

10 October 1997 New class of materials for optical power limiting

Martin K. Casstevens, Ryszard Burzynski, John F. Weibel, Charles W. Spangler, Guang S. He, Paras N. Prasad

Proceedings Volume 3146, Nonlinear Optical Liquids and Power Limiters; (1997) https://doi.org/10.1117/12.284161
Event: Optical Science, Engineering and Instrumentation '97, 1997, San Diego, CA, United States

Abstract

Optical power limiting can be accomplished by a variety ofmaterials whose spectral and temporal utility is determined by a number ofparameters. The most important determinant ofhow a particular material will perform is defmed by the mechanism(s) by which optical power limiting is achieved. This paper discusses the use of complementary materials to obtain the greatest spectral and temporal range. One new class of materials has strongly absorbing charge states (cationic and dicationic) which make them highly desirable for consideration. Several materials are discussed along with their optical characterization. These processes can be carried out in solutions containing various compounds including electron acceptors. Other materials such as two photon absorbing materials exhibit optical power limiting with shorter response times and/or over different spectral regions. Recent progress in the development and characterization oftwo photon absorbing compounds is discussed with particular attention to how they can be used in a complementary fashion with other compounds operating through other mechanisms to deliver broad optical power limiting responses.

Citation Download Citation

Martin K. Casstevens, Ryszard Burzynski, John F. Weibel, Charles W. Spangler, Guang S. He, and Paras N. Prasad "New class of materials for optical power limiting", Proc. SPIE 3146, Nonlinear Optical Liquids and Power Limiters, (10 October 1997); https://doi.org/10.1117/12.284161

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