Institute of Applied Physics
of the Russian Academy of Sciences

 
рус eng
           
 
2014
Papers
  1. Mukhin, I.B, Perevezentsev, E.A., Palashov, O.V., Fabrication of composite laser elements by a new thermal diffusion bonding method, Optical Materials Express, Vol. 4, Issue 2, pp. 266-271 (2014), 
  2. Dmitry Zheleznov, Aleksey Starobor, Oleg Palashov, Chong Chen, and Shengming Zhou, «High-power Faraday isolators based on TAG ceramics», Optics Express, Vol. 22, Issue 3, pp. 2578-2583 (2014).
  3. Ryo Yasuhara, Ilya Snetkov, Alexey Starobor, Dmitry Zheleznov, Oleg Palashov, Efim Khazanov, Hoshiteru Nozawa, and Takagimi Yanagitani, “Terbium gallium garnet ceramic Faraday rotator for high-power laser application”, Optics Letters, Vol. 39, Issue 5, pp. 1145-1148 (2014).
  4. I.L. Snetkov, R. Yasuhara, A. V. Starobor, and O. V. Palashov, "TGG ceramics based Faraday isolator with external compensation of thermally induced depolarization", Optics Express Vol. 22, Iss. 4, pp. 4144–4151 (2014)
  5. A.V. Starobor, R. Yasuhara, D.S. Zheleznov, O.V. Palashov and E.A. Khazanov, "Cryogenic Faraday Isolator Based of TGG ceramics", IEEE Journal of Quantum Electronics Quantum Electronics,V.50, pp.749 - 754, 2014
  6. Snetkov I.L., Voitovich A.V., Palashov O.V., Khazanov E.A., Review of Faraday Isolators for Kilowatt Average Power Lasers, IEEE Journal of Quantum Electronics, V. 50, pp. 434 – 443, 2014
  7. D. Zheleznov, A. Starobor, O. Palashov, H. Lin, and S. Zhou, "Improving characteristics of Faraday isolators based on TAG ceramics by cerium doping," Opt. Lett. 39, 2183-2186 (2014)
  8. E.A. Mironov, A.V. Voitovich, A.V. Starobor and O.V. Palashov, Compensation of polarization distortions in Faraday isolators by means of magnetic field inhomogeneity, Applied Optics,  Vol. 53, Iss. 16 — Jun. 1, 2014 pp: 3486–3491
  9. Aleksey Starobor, Dmitry Zheleznov, Oleg Palashov, Chong Chen, Shengming Zhou, and Ryo Yasuhara, Study of the properties and prospects of Ce:TAG and TGG magnetooptical ceramics for optical isolators for lasers with high average power, Optical Materials Express Vol. 4, Iss. 10, pp. 2127–2132 (2014).
  10. Ivan Kuznetsov, Ivan Mukhin, Dmitry Silin, Oleg Palashov, «Thermal conductivity measurements using phase-shifting interferometry», Optical Materials Express Vol. 4, Iss. 10, pp. 2204–2208 (2014).
  11. А. V.  Starobor  and O. V. Palashov "Thermally-induced depolarization in the optical elements of the transition configuration", 2014 Laser Phys.Lett., Vol. 11, p 125003 doi:10.1088/1612-2011/11/12/125003.
  12. E. A. Mironov and O. V. Palashov, "Faraday isolator based on TSAG crystal for high power lasers," Optics Express Vol. 22, Iss. 19, pp. 23226–23230 (2014).
  13. A. G. Vyatkin, "Thermally induced beam distortions in sesquioxide laser ceramics of m3 crystal class—Part I," IEEE Journal of Quantum Electronics, vol. 50 (12), pp. 1061-1071.
  14. Ryo Yasuhara, Ilya Snetkov, Alexey Starobor, and Oleg Palashov “Terbium gallium garnet ceramic-based Faraday isolator with compensation of thermally induced depolarization for high-energy pulsed lasers with kilowatt average power”, Applied Physics Letters, 105, 241104 (2014) .
  15. S.S. Balabanov, V.E. Vaganov, E.M. Gavrishchuk, V.V. Drobotenko, D.A. Permin, A.V. Fedin, Effect of Magnesium Aluminum Isopropoxide Hydrolysis Conditions on the Properties of Magnesium Aluminate Spinel Powders, Inorganic materials, Vol. 50, No. 8, pp. 830–836, 2014.
  16. Karimov D.N., Sobolev B.P., Ivanov I.A., Kanorsky S.I., Masalov A.V. , Preparation and magneto-optical properties of a cubic crystal Na0.37Tb0.63F2.26., Crystallography, v.59, p. 788-793, 2014.
  17. M.G. Ivanov, Yu. L. Kopylov, V.B. Kravchenko, K.V. Lopuhin, V.V. Shemet, Laser ceramics YAG and Y2O3 of non-agglomerated nano-sized powders, Inorganic Materials, v.50, , p. 1028-1036, 2014..
  18. S.S. Balabanov, E.M. Gavrishchuk, V.V. Drobotenko, A.D. Plehovich, E.E. Rostokin, Effect of initial sol-yttrium aluminum hydroxides on the properties of yttrium aluminum garnet powders, Inorganic Materials, Volume 50, № 10, p. 1114-1118, 2014.
  19. Kuznetsov I.I., Mukhin I.B.,  Silin D.E.;  Vyatkin A.G.; Vadimova O.L.;  Palashov O.V., Thermal Effects in End-Pumped Yb:YAG Thin-Disk and Yb:YAG/YAG Composite Active Element, IEEE J. of  Quantum Electronics, (Vol.50, Issue: 3), 133–140, 2014
  20. Perevesentsev E.A., Mukhin I.B., Kuznetsov I.I., Vadimova O.L., Palashov O.V., Cryogenic disk Yb: YAG-laser with output pulses of nanosecond duration // Quantum Electronics, v .44, №5, p.448-451, 2014.