Quantum gains of photophysical processes in media based on organic molecular charge-transfer complexes

Elena Lvovna Alexandrova; Yuri A. Cherkasov

doi:10.1117/12.304986

1 April 1998 Quantum gains of photophysical processes in media based on organic molecular charge-transfer complexes

Elena Lvovna Alexandrova, Yuri A. Cherkasov

Proceedings Volume 3402, Optical Information Science and Technology (OIST97): Optical Memory and Neural Networks; (1998) https://doi.org/10.1117/12.304986
Event: Optical Information Science and Technology, 1997, Moscow, Russian Federation

Abstract

For main classes of molecular charge-transfer (CT)-complexes used for xerographic media, the regularities of the changing of the gains of photoprocesses are estimated. It is shown that for homological arrays of CT complex molecules having a constant CT distance, a parameters of photoprocesses (such as a optical CT degree, dipole moment, quantum gains of thermalized coulomb connected pairs and of free charge carrier photogeneration) are connected uniquely with a energy and space parameters. Established regularities allow to predict a unknown values of gains for known-structure CT complex molecules and to estimate a limit value of photoprocesses gains and photosensitivity of media based on CT complexes and photoprocesses mentioned above.

Citation Download Citation

Elena Lvovna Alexandrova and Yuri A. Cherkasov "Quantum gains of photophysical processes in media based on organic molecular charge-transfer complexes", Proc. SPIE 3402, Optical Information Science and Technology (OIST97): Optical Memory and Neural Networks, (1 April 1998); https://doi.org/10.1117/12.304986

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