Kaminski Aleksandr Aleksandrovich

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KaminskiAleksandrAleksandrovich.jpg A.Kaminski, 2003.12.09 [1][2]

Kaminski Aleksandr Aleksandrovich (Каминский Александр Александрович, 1934.10.23 - 2019.10.29) is Russian researcher, specialist in laser crystals [1].


  1. 1.0 1.1 http://www.ras.ru/win/db/show_per.asp?P=.id-58612.ln-ru Каминский Александр Александрович, Член-корреспондент РАН, доктор физико-математических наук. Последние изменения: 29.10.2019.
  2. http://isaran.ru/?q=ru/person&guid=0592D383-7F8A-734E-54A6-01F32D6758B8 Каминский Александр Александрович Дата рождения: 23.10.1934 Место рождения: г.Москва Специальность: Физик-экспериментатор, специалист в области физики лазерных кристаллов


http://www.mathnet.ru/rus/person45939 Каминский Александр Александрович

https://megabook.ru/article/Каминский%20Александр%20Александрович Ками́нский Александр Александрович (р. 23 октября 1934), российский ученый-физик, член-корреспондент РАН (с 2006), доктор физико-математических наук. Ведущий сотрудник Института кристаллографии им. А. В. Шубникова РАН.

http://adsabs.harvard.edu/abs/1975MoIzN....U....K Kaminskii,A.A. Laser crystals. Moscow, Izdatel'stvo Nauka, 1975. 256 p. In Russian. The book treats the spectroscopic and generational characteristics of activated dielectric laser crystals, and examines the theoretical aspects of stimulated emission from these crystals. Topics discussed include the Stark structure of the levels of activated ionic crystals, and the luminescence-generational characteristics of Y2O3-Al2O3 crystals. A wavelength index is presented for activated dielectric solid state laser emission, and a table is given summarizing the characteristics of the activated crystals.

https://www.researchgate.net/profile/Ken-ichi_Ueda/publication/254500246_Frequency_self-doubling_of_the_cw_1-m_lasing_of_a_ferroelectric_and_ferroelastic_Nd3_%27_Gd2MoO43_crystal_with_laser-diode_pumping/links/580c0e6b08aecba93500d29c/Frequency-self-doubling-of-the-cw-1-m-lasing-of-a-ferroelectric-and-ferroelastic-Nd3-Gd2MoO43-crystal-with-laser-diode-pumping.pdf A A Kaminski , S N Bagaev, K Ueda, A A Pavlyuk, M Musha Frequency self-doubling of the cw 1-\(\mu\)m lasing of a ferroelectric and ferroelastic Nd\(^{3+}\)􏰺 : \(\rm \beta '-Gd_2(MoO_4)_3\) crystal with laser-diode pumping. Quantum Electronics 27 (8) 657-658 (1997)

https://link.springer.com/article/10.1134/1.1765179 Yu. N. BarabanenkovS. N. IvanovA. V. TaranovE. N. KhazanovH. YagiT. YanagitaniK. TakaichiJ. LuJ. F. BissonA. ShirakawaK. UedaA. A. Kaminskii. Nonequilibrium acoustic phonons in \(\rm Y_3Al_5O_{12}\)-based nanocrystalline ceramics. Journal of Experimental and Theoretical Physics Letters. April 2004, Volume 79, Issue 7, pp 342-345

https://link.springer.com/article/10.1134/1.1813684 A.A.Kaminskii, V.G.Ralchenko, V.I.Konov. Observation of stimulated raman scattering in CVD-diamond. Journal of Experimental and Theoretical Physics Letters, August 2004, Volume 80, Issue 4, pp 267-270. We report the first experimental observation of a nonlinear laser effect, stimulated Raman scattering (SRS), in manmade diamond grown from the gaseous phase by the chemical vapor deposition (CVD) technique. Multiple Stokes and anti-Stokes generation in the visible and near-IR ranges was excited under nanosecond and picosecond pumping in a 350-μ-thick plate. All the registered Raman-induced lasing wavelengths were identified. We classify the CVD-diamond as a promising χ(3)-active material for Raman laser converters in a record wide spectral range.


Laser science, RAN, RAS, Russia

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