• Angeluts A.A., Besootosnii V.V., Cheshev E.A., Goltsman G.N., Finkel M.I., Seliverstov S.V., Evdokimov M.N., Gorbunkov M.V., Kitaeva G.Kh., Koromyslov A.L., Kostryukov P.V., Krivonos M.S., Lobanov Yu.V., Shkurinov A.P., Sarkisov S.Yu., Tunkin V.G.: Compact 1.64 THz source based on dual-wavelength diode end-pumped Nd:YLF laser with nearly semiconfocal cavity. // Laser Physics Letters. — 2014. —V.11— Issue 5. — P. 015004 (1-4).
  • Ilyakov I.E., Kitaeva G.Kh., Shishkin B.V., Akhmedzhanov R.A.: Laser pulse amplitude changes induced by terahertz waves under linear electro-optic effect // Applied Physics Letters, v. 104, p. 151107 (2014).
  • Kornienko V.V., Kitaeva G.Kh, Naumova I.I., Tuchak A.N., Penin A.N., Yakunin P.V.: «Evaluating of the spectral sensitivity of the nonlinear-optical terahertz wave radiation detecors via spontaneous parametric down-conversion spectra». // Optics and Spectroscopy (English translation of Optika i Spektroskopiya), v. 116, № 4, p. 520-528 (2014).
  • G. Kh. Kitaeva, P. V. Yakunin, V. V. Kornienko, A. N. Penin.: Absolute brightness measurements in the terahertz frequency range using vacuum and thermal fluctuations as references. // Applied Physics B: Lasers and Optics, v. 116, No. 4, p. 929-937 (2014).
  • Kornienko V.V., Germanskiy S.A., Kitaeva G.Kh., Penin A.N.: Generation of optical-terahertz biphoton pairs via spontaneous parametric down-conversion // International Journal of Quantum Information, v.12, № 7, p. 1560023

  • G.Kh. Kitaeva, S. P. Kovalev, P.V.Yakunin, I. I. Naumova, A. N. Tuchak, Y.-C.Huang, E. D. Mishina, A.S.Sigov. : Terahertz wave generation in PPLN crystals fabricated using two alternative techniques. // Laser Physics Letters. — 2013. —V.10— Issue 5. — P. 055404 ( 1-7).
  • Wang T.D., Huang Y.C., Chuang M.Y., Lin Y.H., Lee C.H., Lin Y.Y., Lin F.Y., Kitaeva G.Kh.: Long-range parametric amplification of THz wave with absorption loss exceeding parametric gain. // Optics Express 2013. —V.21— Issue 2. — P. 2452-2462.
  • S.P. Kovalev, G.Kh. Kitaeva.: Terahertz electro-optical detection: optical phase or energy measurements. // Journal of the Optical Society of America B 2013. — V.30— Issue 10. — P. 2650-2656.

  • F. Sciarrino, G. Vallone, G. Milani, A. Avella, J. Galinis, R. Machulka, A. M. Perego, K. Y. Spasibko, A. Allevi, M. Bondani, P. Mataloni: High degree of entanglement and nonlocality of a two-photon state generated at 532 nm // Eur. Phys. J. - ST, vol. 199, pp. 111 – 125
  • G.Kh. Kitaeva, S.P. Kovalev, A.N.Penin, A.N. Tuchak, P.V. Yakunin: A method of calibration of terahertz wave brightness under nonlinear-optical detection // Journal of Infrared, Millimeter and Terahertz Waves, v.32 p. 1144–1156 (2011)

  • K.A. Kuznetsov, S.P. Kovalev, G.Kh. Kitaeva, T.D. Wang, Y.Y. Lin, Y.C. Huang, I.I. Naumova, A.N. Penin: Dispersion of the dielectric function real part for Mg:LiNbO3 crystals at terahertz frequencies // Applied Physics B, vol.101, No.4, p. ^C1-815 , 2010
  • I.N.Agafonov, M.V.Chekhova, G.Leuchs: Two-color bright squeezed vacuum // Phys. Rev. A 82, 011801(R) (2010)
  • G. Brida, V. Caricato, M. V. Chekhova, M. Genovese, M. Gramegna, T. Sh. Iskhakov: Testing Ultrafast Two-Photon Spectral Amplitudes via Optical Fibres // Optics Express 18, 12915 (2010)
  • Xi-Hao Chen, Ivan N. Agafonov, Kai-Hong Luo, Qian Liu,RuiXian, Maria V. Chekhova, and Ling-An Wu: High-visibility high-order lensless ghost imaging with\r\nthermal light. // Optics Letters 35, 1166-1168 (2010)
  • M.Avenhaus, K.Laiho, M.Chekhova, C.Silberhorn: Accessing Higher Order Correlations in Quantum Optical States by Time Multiplexing // Phys. Rev. Lett. 104, 063602 (2010)
  • G. Brida, M. V. Chekhova, I. P. Degiovanni, M. Genovese, G. Kh. Kitaeva, A. Meda, and O. A. Shumilkina: Biphoton compression in a standard optical fiber: Exact numerical calculation. // Physical Review A, v. 81, p. 053828 (2010)
  • K.A. Kuznetsov, G.,Kh. Kitaeva, A.A. Ezhov, , D.A. Muzychenko, T.R. Volk, A.N. Penin: Non-collinear generation of second harmonic in a strontium barium niobate crystal with needle-like microdomains. // Ferroelectrics, v.398, p.85-90 (2010)
  • A.S.Solntsev, G.Kh. Kitaeva, I.I. Naumova, A.N. Penin: Measurement of the extraordinary refractive index dispersion in the MIR for Mg:Nd:LiNbO3crystals by the use of quasi-phase-matching in a random 1D domain structure. // Applied Physics B, v.99, p.197-201 (2010)
  • G. Kh. Kitaeva, S. P. Kovalev, I. I. Naumova, R. A. Akhmedzhanov, I. E. Ilyakov, B. V. Shishkin, and E. V. Suvorov: Quasi-phase-matched probe-energy electro-optic sampling as a method of narrowband terahertz detection. // Applied Physics Letters, v.96, Issue 7, p.071106 (2010)
  • G. Kh. Kitaeva, A.N. Penin, A. N. Tuchak, A.V. Shepelev, P.V. Yakunin: Measurement of the Spectral Brightness of Terahertz Radiation in the Process of Nonlinear-Optical Detection. // JETP Letters, v. 92, No. 5, pp. 291–294 (2010)

  • M. Avenhaus, M.V.Chekhova, L. A. Krivitsky, G. Leuchs, and Ch. Silberhorn: Experimental verification of high spectral entanglement for pulsed waveguided spontaneous parametric down-conversion // Phys. Rev. A 79, 043836-1 – 043836-4 (2009)
  • T.Sh.Iskhakov, M.V.Chekhova and G.Leuchs: Generation and Direct Detection of Broadband Mesoscopic Polarization-Squeezed Vacuum // Phys. Rev. Lett. 102, 183602 (2009)
  • G.Brida, M.V.Chekhova, I. P. Degiovanni, M. Genovese, G.Kh. Kitaeva, A. Meda, and O.A. Shumilkina: Chirped Biphotons and their Compression in Optical Fibers. // Phys. Rev. Lett. 103, 193602 (2009)
  • D.A.Kalashnikov, V.P.Karassiov, K.G.Katamadze, A.A.Soloviev, P.A.Prudkovsky, S.P.Kulik: Generation of polarization entangled states in spatially inhomogenious ferroelectrics // Advanced Science Letters, v.2, p.430-447
  • G.Kh. Kitaeva, S.P. Kovalev, and K.A. Kuznetsov: Biphoton wave packets generated in aperiodically poled crystals. // International Journal of Quantum Information v.7, p.63-39 (2009)
  • W.M.Liu, H.C.Guo, G.Kh.Kitaeva, A.N.Tuchak, Y.H.Yan, and S.H.Tang. : Characterization of narrow-band terahertz shaping in periodically poled Mg:LiNbO3 using multipulse pump probe. // Journal of Applied Physics, v.105, p.033106 (2009)
  • W. M. Liu, A. N. Tuchak, Y. H. Yan, G. Kh. Kitaeva, and S. H. Tang : Characterization of domain structure of periodically poled Mg:LiNbO3 through multifrequency terahertz generation // Optics Letters, v. 34, No. 13, pp.2027-2029 (2009)


  • G.Kh. Kitaeva, K.A. Kuznetsov, A. N. Penin, A.V. Shevluga. : Infrared dispersion of dielectric function in Mg-doped LiNbO3 crystals with polaronic-type conductivity // Journal of Raman Spectroscopy v.38, p. 994-997 (2007)
  • G.Kh.Kitaeva: Frequency conversion in aperiodic quasi-phase-matched structures // Phys.Rev.A v.76, p.043841(1-9) (2007)




  • Chekhova M.V., Maslennikov G.A., Kulik S.P., Zhukov A.A.: Practical Realization of the Quantum Cryptography Protocol Exploting Polarization Encoding in the Qutrits // Journal of Optics B, 2003, v.5, p.530
  • Chekhova M.V., Kim Y.-H., Kulik S.P., Grice W.P., Shih Y.: Experimental entanglement concentration and universal Bell-state synthesizer // Phys.Rev.A, 2003, v.67, c.010301


  • Kim Y., Kulik S.P., Shih Y.: Quantum teleportation of a polarization state with a complete Bell state measurement // Phys.Rev.Lett., 2001, v.86, p.1370
  • Burlakov A.V., Chekhova M.V., Karabutova O.A., Kulik S.P.: Biphoton interference with a multimode pump // Phys.Rev.A., 2001, v.63, p.053801
  • Chekhova M.V., Kim Y.H., Berardi V., Shih Y.H.: Anticorrelation effect in femtosecond-pulse pumped type-II spontaneous parametric down-conversion // Phys.Rev.A, 2001, v.64, p.011801
  • Chekhova M.V., Kim Y.H., Kulik S.P., Rubin M.H., Shih Y.H.: Interferometric Bell State Preparation Using Femtosecond Pulse Pumped Spontaneous Parametric Down Conversion // Phys.Rev.A, 2001, v.63, p.062301
  • Burlakov A.V., Chekhova M.V., Karabutova O.A., Kulik S.P.: Collinear two-photon state with spectral properties of type I and polarization properties of type II spontaneous parametric down-conversion: preparation and testing // Phys.Rev.A, 2001, v.64, p.041803
  • Chekhova M.V., D’Angelo M., Shih Y.H.: Two-Photon Diffraction and Quantum Lithography // Phys.Rev.Lett., 2001, v.87, N.1, p.013602