Ultarfast rotational dynamics of electronically excited aniline molecules in solution from ultraviolet femtosecond fluorescence anisotropies.

Marco A. Pereira; Paul E. Share; Mark J. Sarisky; John C. Shelley; Michael L. Klein; Robin M. Hochstrasser

International Quantum Electronics Conference
OSA Technical Digest (Optica Publishing Group, 1990),
paper QPDP9

Ultarfast rotational dynamics of electronically excited aniline molecules in solution from ultraviolet femtosecond fluorescence anisotropies.

Marco A. Pereira, Paul E. Share, Mark J. Sarisky, John C. Shelley, Michael L. Klein, and Robin M. Hochstrasser

International Quantum Electronics Conference 1990

Anaheim, California United States
21–25 May 1990
ISBN: 1-55752-145-X

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M. A. Pereira, P. E. Share, M. J. Sarisky, J. C. Shelley, M. L. Klein, and R. M. Hochstrasser, "Ultarfast rotational dynamics of electronically excited aniline molecules in solution from ultraviolet femtosecond fluorescence anisotropies.," in International Quantum Electronics Conference, A. Owyoung, C. Shank, S. Chu, and E. Ippen, eds., Vol. 8 of OSA Technical Digest (Optica Publishing Group, 1990), paper QPDP9.

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Abstract

The study of rotational dynamics of molecules in solution is a source of valuable information on the forces that mediate intermolecular interactions. Fluorescence anisotropy decay has been used to probe the rotational dynamics of large molecules in solution^1,2. In this work we extend this technique tο study small molecules in solution, into the uv and into the femtosecond range. The experimental anisotropy decay for aniline/isopentane solution was obtained by upconverting the uv fluorescence of aniline molecules and is presented in Figure 1. An exponential fitting yielded a rotational decay time of 0. 95ps, only 55% longer than fie free rotor rotational time (0. 61 ps).

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