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Nonlinear optical diagnostics of local crystallization of lead zirconate titanate films using femtosecond laser radiation

Features of crystallization of microstructures to the perovskite-like phase in a lead zirconate titanate film are studied using multiple near-IR femtosecond laser pulse radiation. The kinetics of crystallization is in situ investigated using the second-harmonic generation technique. It is establishe...

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Published in:	Technical physics letters 2015-05, Vol.41 (5), p.418-421
Main Authors:	Elshin, A. S., Firsova, N. Yu, Marchenkova, M. A., Emel’yanov, V. I., Pronin, I. P., Senkevich, S. V., Mishina, E. D., Sigov, A. S.
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Subjects:	Classical and Continuum Physics Physics Physics and Astronomy
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creator	Elshin, A. S. Firsova, N. Yu Marchenkova, M. A. Emel’yanov, V. I. Pronin, I. P. Senkevich, S. V. Mishina, E. D. Sigov, A. S.
description	Features of crystallization of microstructures to the perovskite-like phase in a lead zirconate titanate film are studied using multiple near-IR femtosecond laser pulse radiation. The kinetics of crystallization is in situ investigated using the second-harmonic generation technique. It is established that the crystallization is divided into high-temperature ultrafast (explosive) crystallization, which occurs right after the start of irradiation, and low-temperature slow (self-induced) crystallization, which starts after termination of irradiation of a strained multilayer structure. The advantages of the second-harmonic generation microscopy in studying annealed microstructures are demonstrated.
doi_str_mv	10.1134/S1063785015050041
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title	Nonlinear optical diagnostics of local crystallization of lead zirconate titanate films using femtosecond laser radiation
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