L
L. E. Medvedev
Researcher at Budker Institute of Nuclear Physics
Publications - 32
Citations - 320
L. E. Medvedev is an academic researcher from Budker Institute of Nuclear Physics. The author has contributed to research in topics: Free-electron laser & Terahertz radiation. The author has an hindex of 7, co-authored 31 publications receiving 295 citations.
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Journal ArticleDOI
Status of the Novosibirsk high-power terahertz FEL
N.G. Gavrilov,Boris A. Knyazev,E.I. Kolobanov,V.V. Kotenkov,Vitaly 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,M.A. Scheglov,Stanislav Serednyakov,Oleg A. Shevchenko,Alexander Skrinsky,V. G. Tcheskidov,Nikolay Vinokurov +19 more
TL;DR: The first stage of the Novosibirsk high-power free electron laser (FEL) was commissioned in 2003 and the second stage is in operation now as mentioned in this paper, which is based on the normal conducting CW energy recovery linac (ERL).
Journal ArticleDOI
Status of the novosibirsk terahertz fel
V.P. Bolotin,Nikolay Vinokurov,Dmitry Kayran,Boris A. Knyazev,E.I. Kolobanov,V.V. Kotenkov,Vitaly 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,Stanislav Serednyakov,Alexander Skrinsky,Oleg A. Shevchenko,M.A. Scheglov +19 more
TL;DR: The first stage of the Novosibirsk high-power free-electron laser (FEL) was commissioned in 2003 as discussed by the authors, and it is based on the normal conducting CW energy recovery linac.
Journal ArticleDOI
First lasing at the high-power free electron laser at Siberian center for photochemistry research
E. Antokhin,R. R. Akberdin,V. S. Arbuzov,M. A. Bokov,V.P. Bolotin,D.B Burenkov,A.A. Bushuev,V. F. Veremeenko,Nikolay Vinokurov,P.D. Vobly,N.G. Gavrilov,E. I. Gorniker,K.M Gorchakov,V.N Grigoryev,B.A Gudkov,A.V Davydov,Olga Deichuli,E. N. Dementyev,B. A. Dovzhenko,A.N Dubrovin,Yu. A. Evtushenko,E. I. Zagorodnikov,N. S. Zaigraeva,E. M. Zakutov,A.I Erokhin,Dmitry Kayran,O. B. Kiselev,Boris A. Knyazev,V. R. Kozak,V. V. Kolmogorov,E.I. Kolobanov,A. A. Kondakov,N. L. Kondakova,S. A. Krutikhin,A.M Kryuchkov,Vitaly V. Kubarev,G.N. Kulipanov,E.A. Kuper,I. V. Kuptsov,G.Ya. Kurkin,E.A Labutskaya,L. G. Leontyevskaya,V. Yu. Loskutov,A.N. Matveenko,L. E. Medvedev,A. S. Medvedko,S.V. Miginsky,L.A. Mironenko,Sergey Motygin,A.D. Oreshkov,V. K. Ovchar,V. N. Osipov,B.Z. Persov,S.P. Petrov,V. M. Petrov,A. M. Pilan,I.V Poletaev,A.V Polyanskiy,V.M. Popik,A.M Popov,Evgeniy Rotov,T. V. Salikova,I.K Sedliarov,P.A Selivanov,Stanislav Serednyakov,Alexander Skrinsky,S. V. Tararyshkin,L. A. Timoshina,A. G. Tribendis,M.A. Kholopov,V.P. Cherepanov,Oleg A. Shevchenko,A.R Shteinke,E. I. Shubin,M.A. Scheglov +74 more
TL;DR: The first lasing near wavelength 140μm was achieved in April 2003 on a high-power free electron laser (FEL) constructed at the Siberian Center for Photochemical Research as discussed by the authors.
Journal ArticleDOI
The Novosibirsk Free Electron Laser – Unique Source of Terahertz and Infrared Coherent Radiation
Oleg A. Shevchenko,V. S. Arbuzov,Nikolay Vinokurov,P.D. Vobly,Vladimir Volkov,Ya. V. Getmanov,Ya. I. Gorbachev,I. V. Davidyuk,O. I. Deychuly,E. N. Dementyev,B. A. Dovzhenko,Boris A. Knyazev,E.I. Kolobanov,A. A. Kondakov,V. R. Kozak,Evgeny Kozyrev,Vitaly V. Kubarev,G.N. Kulipanov,E.A. Kuper,I. V. Kuptsov,G.Ya. Kurkin,S. A. Krutikhin,L. E. Medvedev,Sergey Motygin,V. K. Ovchar,V. N. Osipov,V. M. Petrov,A. M. Pilan,V.M. Popik,V. V. Repkov,T. V. Salikova,I. K. Sedlyarov,Stanislav Serednyakov,A.N. Skrinsky,S. V. Tararyshkin,A. G. Tribendis,V. G. Tcheskidov,K. N. Chernov,M.A. Scheglov +38 more
TL;DR: The high-power free electron laser (FEL) facility NovoFEL has been created at Budker INP as discussed by the authors, which uses a multi-turn energy recovery linac with five straight sections as a source of electron beam.
Journal ArticleDOI
Modulation instability, three mode regimes and harmonic generation at the Novosibirsk terahertz free electron laser
Vitaly V. Kubarev,G.N. Kulipanov,E.I. Kolobanov,A.N. Matveenko,L. E. Medvedev,V. K. Ovchar,T. V. Salikova,M.A. Scheglov,Stanislav Serednyakov,Nikolay Vinokurov +9 more
TL;DR: In this article, the authors investigated the extent of stabilization of modulation instability with a complex diagnostics system and found that slippage due to detuning of the frequencies of electron and light pulses was the main stabilization factor.