Semiconductor A3B5 nanostructures for infrared femtosecond lasers

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DOI
10.1088/1742-6596/414/1/012026
Authors
Rubtsova, N. N.
Kochubei, A. A.
Kovalyov, A. A.
Preobrazhenskii, V. V.
Putyato, M. A.
Semyagin, B. R.
Shamirzaev, T. S.
Borisov, G. M.
Kisel, V. E.
Kuleshov, N. V.
Kuril'chik, S. V.
Buganov, O. V.
Tikhomirov, S. A.
Date
2013
Publisher
Institute of Physics
Bibliographic entry
Semiconductor A(3)B(5) nanostructures for infrared femtosecond lasers / N. N. Rubtsova [et al.] // 21st International Laser Physics Workshop. – 2013. – Vol. 414, № 012026. – (Journal of Physics Conference Series) – DOI: 10.1088/1742-6596/414/1/012026
Abstract
Two techniques were suggested and tested for the recovery time shortening of saturable absorbers on a base of A3B5 compounds including quantum wells. The first one, proposed by authors, is the sample post-growth treatment by UV laser radiation; it implied generation of point defects, which, in its turn, led to electron-hole recombination acceleration and to recovery time shortening by an order of magnitude and more. Another technique based on special design of barriers gave promising results for the fast saturable absorbers. Semiconductor mirrors designed for Yb3+:KY(WO4)2 infrared laser mode locking led to 115 fs stable modelocking regime with average power close to CW operation. Results on fast saturable absorbers for spectral region of 1500 nm are also presented.
URI
https://rep.bntu.by/handle/data/23713
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