Submillimeter coherent radiation generation

 
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1 Dielectric properties of ZnGeP2 in far IR-range of wavelengths. Physics of the Solid State. Vol.37, pp. 2199 - 2202, 1995. V.V.Voicehovsky, A.A.Volkov, G.A.Komandin, Yu.A.Shakir.
2 Subtraction of the CO2 laser radiation frequencies in a ZnGeP2 crystal. Quantum Electronics. Vol. 26, No. 6, pp. 469-470, 1996. Apollonov V.V, Gribenyukov A.I, Korotkova V.V, Suzdal'tsev A.G, Shakir Yu.A.
3 Far infrared generation by CO2 lasers frequencies subtraction in ZnGeP2 crystal. Proc. SPIE "Intern. Conf. Millimeter and Submillimeter Waves and Applications III", v.2842, p.163-167,1996. Yu.A.Shakir, V.V.Apollonov, A.M.Prokhorov,A.G.Suzdal'tsev, A.I.Gribenyukov, R.Bocquet.
4 Subtraction of CO2 laser radiation frequencies in ZnGeP2 crystal. Proc. Intern. Conf. "Lasers' 96", Oregon, USA, Dec. 1996, pp. 410-412. V.V.Apollonov, A.M.Prokhorov, Yu.A.Shakir, A.G.Suzdal'tsev, A.I.Gribenyukov, R.Bocquet.
5 Far infrared generation by CO2 lasers frequencies subtraction in a ZnGeP2 crystal.
International Journal of Infrared and Millimeter Waves, Volume 17, Number 8, p. 1465-1472, 1996. V.V. Apollonov, R. Bocquet, A. Boscheron, A.I. Gribenyukov, V.V. Korotkova, C. Rouyer, A.G. Suzdal'tsev, and Yu.A.Shakir.
6
Submillimeter-wave generation with ZnGeP2 crystals. Proc. SPIE ''Intern. Conf. on Atomik and Molecular Pulsed Lasers II", 22-26 Sept. 1997, Tomsk, Russia, v. 3403, pp. 341-347, 1998. Yu.M.Andreev, V.V.Apollonov, Yu.A.Shakir, G.A.Verozubova, A.I.Gribenyukov.
7
Efficiency of Difference Frequency Generation with ZnGeP2.

Proc. Intern. Conf. "Lasers'97", Louisiana, USA, pp. 733-735, 1998. V.V.Apollonov, Yu.A.Shakir.
8
Submillimeter-wave generation with ZnGeP2. J. Korean Physical Society, Vol. 33, No. 3, pp. 320-325, 1998. Yu.M.Andreev, V.V.Apollonov, Yu.A.Shakir, G.A.Verozubova, A.I.Gribenyukov. 
9
Efficiency of Difference Frequency Generation with ZnGeP2. Proc. SPIE ''Laser Optics' 98: Gas, Liquid and Free-Electron Lasers'', St-Petersburg, Russia, v. 3686, pp. 145-150, 1999. V.V.Apollonov, Yu.A.Shakir
10
Wide aperture picosecond CO2 laser system: New applications. Proc. Intern. Conf. "Lasers'98", Arizona, USA, pp. 307-311, 1999. V.V.Apollonov, K.Kh.Kazakov, N.V.Pletnyev, Yu.A.Shakir, V.R.Sorochenko.
11 Transformation of CO2 laser emission into submillimeter range for gas analysis of the atmosphere. Proc. The Third International symposium ''Application of the conversion research results for international cooperation ''SIBCONVERS'99'' May 18-20, 1999, Tomsk, Russia, pp. 9-12. P.P.Geiko, A.I.Gusamov, M.Yu.Kataev, V.M.Petrov, Yu.A.Shakir, Yu.M.Andreev.
12 Generation of a Submillimeter Half-Cycle Radiation Pulse.

Laser Physics, Vol. 9, No. 3, pp. 741-743, 1999. V.V.Apollonov, Yu.A.Shakir.
13 Submillimeter generation by means of AgGaSe2 and  AgGa1-xInxSe2. Proc. 4th Intern. Conference "Crystals: Growth, Properties, Real Structure and Application", v. 2, pp. 572-580, 1999. V.V.Apollonov, S.P.Lebedev, Yu.A.Shakir, V.V.Badikov, Yu.M.Andreev,A.I.Gribenyukov.
14 High Power CO2-Laser Radiation Conversion with AgGaSe2 and AgGa1-xInxSe2 Crystals.  Laser Physics, Vol. 9, No. 6, pp. 1236-1239, 1999.

Figure 5 corrected by authors after publication.

V.V.Apollonov, S.P.Lebedev, G.A.Komandin, Yu.A.Shakir, V.V.Badikov, Yu.M.Andreev, A.I.Gribenyukov.
15 High-power CO2 laser radiation conversion by means of AgGaSe2 and AgGa1-xInxSe2 crystals. Proc. SPIE "Advanced High-Power Lasers", v. 3889, pp. 538-543, 2000. V.V.Apollonov, S.P.Lebedev, G.A.Komandin, Yu.A.Shakir, V.V.Badikov, Yu.M.Andreev, A.I.Gribenyukov.
16 Submillimeter wave generation by nonstationary mixing.

Laser Physics, Vol. 11, No. 3, pp. 364-367, 2001. V.V.Apollonov, Yu.A.Shakir.
17 Nonstationary mixing in AgGaSe2. Proc. SPIE "Laser Optics 2000: Control of Laser Beam Characteristics and Nonlinear Methods for Wavefront Control", St-Petersburg, Russia, v. 4353, pp. 121-124, 2001. V.V.Apollonov, Yu.A.Shakir.
18 Submillimeter generation by nonstationary mixing of laser pulses.

Proc. Intern. Conf. ''Lasers' 2000'', New Mexico, USA, pp. 850-855, 2001. V.V.Apollonov, Yu.A.Shakir.
19 Modelling half-cycle pulse generation in ZnGeP2 crystal.

J. Phys. D: Appl. Phys., v. 35, No 13, 1477-1480, 2002.  V.V.Apollonov, Yu.A.Shakir and A.I.Gribenyukov
20
Estimation of possibility to create a parametric generator of THz radiation on base of ZnGeP2 crystals modified by fast e-beam.

Proc. 15th Intern. Symp. High Current  Electronics,  Tomsk, Russia, 21-26 September 2008, pp. 455-458, Edited by Boris Kovalchuk and Gennady Remnev, Publishing house IAO SB RAS, 545pp. A.I.Gribenyukov,
V.R.Sorochenko,
Yu.A.Shakir.
21
Simulation of Parametric Oscillation in the Submillimeter Range at Pumping of the ZnGeP2 Crystal by a Train of 100-ps High-Power Pulses.

Physics of Wave Phenomena, v. 16, No. 4, pp. 233-240, 2009.
Yu.A. Shakir, V.R. Sorochenko, and A.I. Gribenyukov
22
Parametric Oscillation of High-Power 3-THz Pulse by Synchronously Pumped ZnGeP2 Crystal: Computer Simulation.

Physics of Wave Phenomena, v. 18, No. 4, pp. 240-244, 2010. Yu.A. Shakir, V.R. Sorochenko, and A.I. Gribenyukov
23
Mechanisms of loss formation in nonlinear optical crystals ZnGeP2 in the terahertz frequency range.
 
Physics of the Solid State. v. 56, No. 7, pp. 1391 - 1396, 2014. S.V.Chuchupal, G.A.Komandin,
E.S.Zhukova, A.S.Prokhorov, O.E.Porodinkov, I.E.Spector
, Yu.A.Shakir,
A.I. Gribenyukov.


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