Publications

Papers published in the last ten years

V. L. Velichansky, M. A. Gubin, Laser frequency standards at the P. N. Lebedev Physical Institute, Physics-Uspekhi,  52, 179 (11), 1219–1224 (2009) DOI: 10.3367/UFNe.0179.200911h.1219

Group of High-Coherence Semiconductor Lasers

  1. A.V. Yarovitsky, O.N. Prudnikov, V.V. Vasil’ev, V.L. Velichansky, O.A. Razin, I.V. Sherstov, A.V. Taichenachev, V.I. Yudin, Tunable frequency-stabilised laser for studying the cooling dynamics of Rb atoms in a magnetooptical trap. Quantum Electron., 34(4), 341–347 (2004).
  2. S.V. Kargapoltsev, J. Kitching, L. Hollberg, A.V. Taichenachev, V.L. Velichansky, V.I. Yudin, High-contrast dark resonance in σ+–σ– optical field.Laser Phys. Lett., 1(10), 495–499 (2004).
  3. A.V. Taichenachev, V.I. Yudin, V.L. Velichansky, S.V. Kargapol’tsev, R. Wynands, J. Kitching, L. Hollberg, High-contrast dark resonances on the D1 line of alkali metals in the field of counterpropagating waves. JETP Lett.,  80(4), 265–270 (2004).
  4. A.V. Taichenachev, V.I. Yudin, V.L. Velichansky, S.A. Zibrov, On the unique possibility to increase significantly the contrast of dark resonances on D1 line of 87Rb.JETP Lett.,  82(7), 449–454 (2005).
  5. S.V. Kargapol’tsev, V.L. Velichansky, A.V. Yarovitsky, A.V. Taichenachev, V.I. Yudin, Optical cascade pumping of the 7Р3/2 level in cesium atoms. Quantum Electron.,  35(7), 591–597 (2005).
  6.  S.A. Zibrov, V.L. Velichansky, A.S. Zibrov, A.V. Taichenachev, V.I. Yudin, Experimental investigation of the dark pseudoresonance on the D1 line of the 87Rb atom excited by a linearly polarized field. JETP Lett.,  82(8), 534–538 (2005).
  7. D.V. Brazhnikov, A.V. Taichenachev, A.M. Tumaikin,  V.I. Yudin, S.A. Zibrov, Ya.O. Dudin, V.V. Vasil’ev, V.L. Velichansky, Features of magneto-optical resonances in an elliptically polarized traveling light wave. JETP Lett., 83(2), 71–75 (2006).
  8. A.S. Zibrov, A.A. Zhukov, V.P. Yakovlev, V.L. Velichansky, Shape of the signal of double radio-optical resonance in 85Rb atomic vapors in strong fields. JETP Lett., 83(4), 168–172 (2006).
  9. V. Vassiliev, S. Zibrov, V. Velichansky, A compact extended cavity diode laser for atomic spectroscopy and metrology.  Rev. Sci. Instr.,77(1), 013102-1-4 (2006).
  10. A.V. Taichenachev, V.I. Yudin, V.L. Velichansky, A.S. Zibrov, S.A. Zibrov, Pure superposition states of atoms generated by a bichromatic elliptically polarized field. Phys. Rev. A, 73(1), 013812-1-5 (2006). 
  11. S.A. Zibrov, V.L. Velichansky, A.S. Zibrov, A.V. Taichenachev, V.I. Yudin, Experimental preparation of pure superposition states of atoms via elliptically polarized bichromatic radiation. Opt. Lett., 31(13), 2060–2062 (2006).
  12. S.A. Zibrov, Ya.O. Dudin, A.G. Radnayev, V.V. Vassiliev, V.L. Velichansky, D.V. Brazhnikov, A.V. Taichenachev, V.I. Yudin, Magneto-optical resonances in the field of counterpropagating waves. JETP Lett., 85(9), 515–519 (2007).
  13. V.L. Velichansky, V.K. Egorov, Laboratory practicum “Fibre-optic communication line”. Moscow Engineering Physics Institute (State University) (2008).
  14. V.L. Velichansky, V.K. Egorov, Laboratory practicum “Injection laser”. Moscow Engineering Physics Institute (State University)  (2008).
  15. S.V. Kargapol’tsev, V.L. Velichansky, V.V. Vasil’ev, M.Sh. Kobyakova, A.V. Morozyuk, N.V. Shiryaeva, V.P. Konyaev, Low-threshold short cavity diode laser for a miniature atomic clock. Quantum Electron., 39(6), 487–493 (2009).
  16. A.A. Zhukov, S.A. Zibrov, G.V. Romanov, Y.O. Dudin, V.V. Vassiliev, V.L. Velichansky, V.P. Yakovlev, Electromagnetically induced absorption in a bichromatic laser field. Phys. Rev. A, 80(3), 033830-1–033830-11 (2009).
  17. D.V. Brazhnikov, A.V. Taichenachev, A.M. Tumaikin, V.I. Yudin, V.L. Velichansky, S.A. Zibrov, Shift and asymmetry of saturated absorption resonance in the field of counterpropagating elliptically polarized waves. JETP, 136(1), 18–30 (2009).
  18. S.A. Zibrov, I. Novikova, D.F. Phillips, R.L. Walsworth, A.S. Zibrov, V.L. Velichansky, A.V. Taichenachev, V.I. Yudin, Coherent-population-trapping resonances with linearly polarized light for all-optical miniature atomic clocks. Phys. Rev. A, 81(1), 013833-1–013833-7 (2010).
  19. V.I. Yudin, A.V. Taichenachev, Y.O. Dudin, V.L. Velichansky, A.S. Zibrov, S.A. Zibrov, Vector magnetometry based on electromagnetically induced transparency in linearly polarized light. Phys. Rev. A, 82(3), 033807-1–033807-7 (2010).
  20. V.V. Vasil’ev, V.L. Velichanskii, S.A. Zibrov, A.V. Sivak, D.V. Brazhnikov, A.V. Taichenachev, V.I. Yudin, Dual structure of saturated absorption resonance at an open atomic transition, JETP, 112, 770–779 (2011).
  21. V.А. Astapenko, A.S. Baturin, V.L. Velichansky, S.A. Zibrov, E.V. Korostylev, L.P. Sukhanov, Experimental and theoretical investigation of optical centres in diamond. Nanostruktury, 8, 17 (2013).
  22. V.I. Yudin, A.V. Taichenachev, D.I. Sevostianov, V.L. Velichansky, V.V. Vasiliev, A.A. Zibrov, A.S. Zibrov, S.A. Zibrov, Feedback spectroscopy of atomic resonances, Phys. Rev. A, 87, 063806-1–063806-6 (2013).
  23. V.L. Velichansky, A.N. Kozlov, E.V. Zhivun, S.A. Zibrov, V.V. Shutov, V.V. Vasil’ev,  A.K. Vershovsky, A.S. Pazgalev, Laser pumped cesium magnetometer. Usp. Sovr. Radioelektron., 12, 43–59 (2013).
  24. D.I. Sevost’yanov, V.P. Yakovlev, A.N. Kozlov, V.V. Vasiliev, S.A. Zibrov, V.L. Velichansky, Role of transient processes in resonance line spectroscopy of caesium atoms in cells with antirelaxation coating. Quantum Electron., 43, 638–645 (2013).
  25. A.A. Zhukov, S.A. Zibrov, V.L. Velichansky, V.P. Yakovlev, Polarization features of magneto-optical resonance for the open V configuration of atomic transitions. Vestn. NRNU MEPhI, 2(4), 389–395 (2013).

Group of Precision Frequency Measurements

  1.  M.A. Gubin, A.N. Kireev, A.V. Konyashchenko, P.G. Kryukov, A.S. Shelkovnikov, A.V. Tausenev, D.A. Tyurikov, Femtosecond Er3+ fiber laser for application in an optical clock. Laser Phys., 17(11), 1286–1291 )2007).
  2. M.A. Gubin, A.N. Kireev, A.V. Konyashchenko, P.G. Kryukov, A.S. Shelkovnikov, A.V. Tausenev, D.A. Tyurikov,  Femtosecond fiber laser based methane optical clock. Appl. Phys. B, 95(4), 661–666 (2009), DOI:10.1007/s00340-009-3525.
  3. M. Gubin, A. Kireev, A. Konyaschenko, P. Kryukov, A. Shelkovnikov, A. Tausenev, D. Tyurikov,  Development of a compact methane based optical clock. In Proc. European Frequency and Time Forum (EFTF08), 21–25 April, 2008, Toulouse, France.
  4. Andrew Benedick, Dmitry Tyurikov, Mikhail Gubin et al., Compact, Ti:sapphire-based, methane-stabilized optical molecular frequency comb and clock. Opt. Lett., 34(14), 2168–2170 (2009), DOI: 10.1364/OL.34.002168.
  5. M.A. Gubin, A.N. Kireev, V.I. Kozlovsky et al., Tunable two-mode Cr2+:ZnSe laser with a frequency-noise spectral density of 0.03 Hz Hz(-1/2), Quantum Electron., 42(6), 509–513 (2012), DOI: 10.1070/QE2012v042n06ABEH014838.
  6. M.A. Gubin, A.N. Kireev, Yu.V. Korostelin et al., Tunable single-frequency CW Cr2+:CdSe laser. Bull. Lebedev Phys. Inst., 38(7), 205–208 (2011), DOI: 10.3103/S1068335611070049.
  7.  M.A. Gubin, A.N. Kireev, V.I. Kozlovsky, Yu.V. Korostelin, V.A. Lazarev, A.B. Pnev, Yu.P. Podmar’kov, D.A. Tyurikov, M.P. Frolov, A.S. Shelkovnikov, Observation of saturated dispersion resonances of methane in a two-mode Cr2+ : ZnSe/CH4 laser. Quantum Electron., 42(7), 565–566 (2012), OI:10.1070/QE2012v042n07ABEH014907.
  8. M. Gubin, Yu. Podmar’kov, M. Frolov, A. Kireev, Yu. Korostelin, V. Kozlovsky, V. Lazarev, A. Pniov, A. Shelkovnikov, M. Tarabrin, D. Tyurikov, Saturated dispersion resonances in a Cr2+:ZnSe/CH4 laser with a “dry cooled” methane cel». In Abstract Book of 28th European Frequency and Time Forum (EFTF-2014), June 23–26 2014, Neuchâtel, Switzerland, p. 112, #7234.
  9. M.K. Tarabrin, M.P. Frolov, M.A. Gubin, A.N. Kireev, et al., Testing of Cr:ZnSe laser with intracavity methane cell in 77–300 K temperature range, Laser Optics, 2014 International Conference, June 30 – July 4, 2014, Saint Petersburg, Russia, DOI: 10.1109/LO.2014.6886221, Publisher: IEEE.
  10. M.A. Gubin, A.N. Kireev, A.V. Konyashchenko, V.I. Kozlovsky, Yu.V. Korostelin, V.A. Lazarev, A.B. Pnev, Yu.P. Podmar’kov, M.P. Frolov, A.S. Shelkovnikov, M.K. Tarabrin, A.V. Tausenev, D.A. Tyurikov, Highly stable optical frequency standards based on gas cells for practical applications. In Proc. 7th Int. Symposium “Metrology of Time and Space”, 7–19 September 2014, Suzdal, Russia (invited talk).