T.V. Salikova
Budker Institute of Nuclear Physics
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Featured researches published by T.V. Salikova.
IEEE Transactions on Terahertz Science and Technology | 2015
G.N. Kulipanov; Elena G. Bagryanskaya; Evgeniy N. Chesnokov; Yulia Yu. Choporova; Vasily V. Gerasimov; Yaroslav V. Getmanov; Sergey L. Kiselev; Boris A. Knyazev; Vitali V. Kubarev; Sergey E. Peltek; V.M. Popik; T.V. Salikova; Michael A. Scheglov; Stanislav S. Seredniakov; O.A. Shevchenko; A.N. Skrinsky; Sergey L. Veber; N.A. Vinokurov
The design and operational characteristics of the Novosibirsk free electron laser facility are described. Selected experiments in the terahertz range carried out recently at the user stations are surveyed in brief.
international conference on infrared, millimeter, and terahertz waves | 2004
V.P. Bolotin; D.A. Kayran; Boris A. Knyazev; E.I. Kolobanov; V.V. Kotenkov; V. V. Kubarev; G.N. Kulipanov; A.N. Matveenko; L.E. Medvedev; S.V. Miginsky; L.A. Mironenko; A.D. Oreshkov; V.K. Ovchar; V.M. Popik; T.V. Salikova; S.S. Serednyakov; A.N. Skrinsky; O.A. Shevchenko; M.A. Scheglov; N.A. Vinokurov; N.S. Zaigraeva
The first stage of Novosibirsk high power free electron laser (FEL) was commissioned in 2003. It is based on normal conducting CW energy recovery linac. Now the FEL provides electromagnetic radiation in the wavelength range 120-180 micron. The average power is 100 W. The measured linewidth is 0.3%, which is close to the Fourier-transform limit. The assembly of user beamline is in progress. Plans of future developments are discussed.
joint international conference on infrared millimeter waves and international conference on teraherz electronics | 2006
V. V. Kubarev; N.A. Vinokurov; V.V. Kotenkov; G.N. Kulipanov; A.N. Matveenko; T.V. Salikova; S.S. Serednyakov; M.A. Scheglov
At the present time, the radiation of the main first harmonic of the Novosibirsk terahertz free electron laser (FEL) lies in the range of 120-230 mum with power level of up to 400 W. The radiation of second and third harmonics was experimentally found in the FEL. This high harmonic FEL radiation extends its spectral range by a factor of 3. Rather high second harmonic radiation unusual for typical FEL allows uninterrupted radiation in the range of 40-230 mum.
international conference on infrared, millimeter, and terahertz waves | 2005
V.P. Bolotin; Boris A. Knyazev; E.I. Kolobanov; V.V. Kotenkov; V.V. Kubarev; G.N. Kulipanov; A.N. Matveenko; L.E. Medvedev; A.D. Oreshkov; B.Z. Persov; V.M. Popik; T.V. Salikova; S.S. Serednyakov; O.A. Shevchenko; M.A. Scheglov; N.A. Vinokurov
The first quasi-continuous optical discharge in near sub-millimeter spectral range was demonstrated on high-power Novosibirsk free electron laser. Experimental results and elementary theory of this phenomenon are presented.
international conference on infrared, millimeter, and terahertz waves | 2005
V.P. Bolotin; Valery S. Cherkassky; E.N. Chesnokov; Boris A. Knyazev; E.I. Kolobanov; V.V. Kotenkov; A.S. Kozlov; V.V. Kubarev; G.N. Kulipanov; A.N. Matveenko; L.E. Medvedev; S.V. Miginsky; L.A. Mironenko; A.D. Oreshkov; V.K. Ovchar; A.K. Petrov; V.M. Popik; P.D. Rudych; T.V. Salikova; S.S. Serednyakov; A.N. Skrinsky; O.A. Shevchenko; M.A. Scheglov; M.B. Taraban; N.A. Vinokurov; N.S. Zaigraeva
During the past year, generation characteristics of the Novisibirsk terahertz free electron laser were growing up. It generates now coherent radiation tunable in the range 120-170 /spl mu/m at the repetition rate of 2.8-11.2 MHz. Maximum average output power reaches 400 W at 11.2 MHz. Laser radiations are transmitted through a 14-m optical beamline to the user stations. Experiments on chemistry, biology, spectroscopy, imaging and holography with employment of terahertz radiation are in progress.
international conference on infrared, millimeter, and terahertz waves | 2009
R. R. Akberdin; E. N. Chesnokov; M. A. Dem'yanenko; D. G. Esaev; T. N. Goryachevskaya; A. E. Klimov; Boris A. Knyazev; E.I. Kolobanov; A. S. Kozlov; V. V. Kubarev; G.N. Kulipanov; Sergei A. Kuznetsov; A.N. Matveenko; L.E. Medvedev; E. V. Naumova; A. V. Okotrub; V.K. Ovchar; Konstantin S. Palagin; N. S. Paschin; S. G. Peltek; A. K. Petrov; V. Ya. Prinz; V.M. Popik; T.V. Salikova; S.S. Serednyakov; A.N. Skrinsky; O.A. Shevchenko; M.A. Scheglov; N.A. Vinokurov; Maxim G. Vlasenko
High power THz applications on the Novosibirsk terahertz free electron laser are described.
joint international conference on infrared millimeter waves and international conference on teraherz electronics | 2006
V. V. Kubarev; N.A. Vinokurov; V.V. Kotenkov; G.N. Kulipanov; A.N. Matveenko; T.V. Salikova; S.S. Serednyakov; M.A. Scheglov
Sideband instability was observed very clearly in the long-pulse regime of the Novosibirsk terahertz free electron laser (FEL) by a Bruker vacuum Fourier spectrometer IFS-66v. For positive frequency detuning, simultaneous generation of six sideband modes was observed. Mode competition and mode switching have been registered. Negative frequency detuning decreased the number of sideband modes and an single-mode generation with the narrowest classical spectrum has been obtained for sufficiently large detuning .
international conference on infrared, millimeter, and terahertz waves | 2005
E.I. Kolobanov; V.V. Kotenkov; V. V. Kubarev; G.N. Kulipanov; E.V. Makashov; A.N. Matveenko; L.E. Medvedev; A.D. Oreshkov; V.K. Ovchar; Konstantin S. Palagin; V.M. Popik; T.V. Salikova; S.S. Serednyakov; O.A. Shevchenko; M.A. Scheglov; N.A. Vinokurov
Fast Schottky-diode detectors is used for measurement and optimization of main parameters of Novosibirsk free electron laser (FEL) such as losses in optical resonator, small signal gain, optimal output coupling. Possibility of applying of the device for measurement of coherence time and FEL pulse duration is considered. We plan also to calibrate free electron laser wavelengths by this detector and etalon universal gas laser. High sensitivity of the detector allows apply of it in various users experiments too.
international conference on infrared, millimeter, and terahertz waves | 2009
V. V. Kubarev; E.I. Kolobanov; G.N. Kulipanov; A.N. Matveenko; L.E. Medvedev; T.V. Salikova; M.A. Scheglov; S.S. Serednyakov; N.A. Vinokurov
Different mode regimes versus the extent modulation instability stabilization were investigated with a complex diagnostics system. Slippage due to frequency detuning of electron and light pulses turned out to be the main stabilization factor. Spectral and time parameters of the laser, especially the radiation of high harmonics, have been shown to strongly depend on the stabilization.
Physics of Particles and Nuclei Letters | 2006
V. P. Bolotin; N.A. Vinokurov; D.A. Kayran; Boris A. Knyazev; E.I. Kolobanov; V.V. Kotenkov; V. V. Kubarev; G.N. Kulipanov; A.N. Matveenko; L.E. Medvedev; S.V. Miginsky; L. A. Mironenko; A.D. Oreshkov; V.K. Ovchar; V.M. Popik; T.V. Salikova; S.S. Serednyakov; A.N. Skrinsky; V.G. Tcheskidov; O.A. Shevchenko; M.A. Scheglov
The first stage of the Novosibirsk high-power free-electron laser (FEL) was commissioned in 2003. It is driven by a CW energy recovery linac. The next step will be the full-scale machine, a four-track accelerator-recuperator based on the same RF accelerating structure. This upgrade will permit to get shorter wavelengths in the infrared region and increase the average power of the FEL by several times. The scheme and some technical details of the project are set out. The installation will be a prototype for future multiturn accelerator-recuperators.
