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
TLDR
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.About:
This article is published in Physics Procedia.The article was published on 2016-01-01 and is currently open access. It has received 33 citations till now. The article focuses on the topics: Free-electron laser & Undulator.read more
Citations
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Journal ArticleDOI
High-extraction-efficiency operation of a midinfrared free electron laser enabled by dynamic cavity desynchronization
TL;DR: In this article, the authors used a dynamic cavity desynchronization method to achieve an extraction efficiency higher than 5% with the mid-infrared (MIR) free electron laser (FEL) driven by normal conducting linacs.
Journal ArticleDOI
Electronic Modulation of THz Radiation at NovoFEL: Technical Aspects and Possible Applications.
Oleg A. Shevchenko,Anatoly R. Melnikov,Anatoly R. Melnikov,S. V. Tararyshkin,Yaroslav V. Getmanov,Yaroslav V. Getmanov,Stanislav Serednyakov,Evgeny V. Bykov,Vitaly V. Kubarev,Vitaly V. Kubarev,Matvey V. Fedin,Matvey V. Fedin,Sergey L. Veber,Sergey L. Veber +13 more
TL;DR: A modulation approach suitable for free electron lasers based on recuperation design is proposed, which allows for generating THz macropulses of a desirable length, down to several microseconds (limited by a quality factor of FEL optical resonator).
Journal ArticleDOI
X-band EPR setup with THz light excitation of Novosibirsk Free Electron Laser: Goals, means, useful extras.
Sergey L. Veber,Sergey V. Tumanov,Elena Fursova,Oleg A. Shevchenko,Yaroslav V. Getmanov,M.A. Scheglov,Vitaly V. Kubarev,Vitaly V. Kubarev,Daria A. Shevchenko,Iaroslav I. Gorbachev,T. V. Salikova,G.N. Kulipanov,Victor I. Ovcharenko,Matvey V. Fedin +13 more
TL;DR: Electron Paramagnetic Resonance (EPR) station at the Novosibirsk Free Electron Laser (NovoFEL) user facility is described and T-jump TR EPR spectroscopy with THz pulses has been previewed, being a useful supplement for the main goals of the created setup.
Journal ArticleDOI
The Radiation Beamline of Novosibirsk Free-Electron Laser Facility Operating in Terahertz, Far-Infrared, and Mid-Infrared Ranges
Vitaly V. Kubarev,Gennady I. Sozinov,M.A. Scheglov,Alexander Vodopyanov,A. V. Sidorov,Anatoly R. Melnikov,Sergey L. Veber +6 more
TL;DR: In this article, the authors describe the 120m beamline for transporting the radiation of the Novosibirsk FEL facility, consisting of three FELs of the terahertz (THz), far-infrared, and midinfrared ranges.
Journal ArticleDOI
Study on Wideband THz Backward Wave Oscillator Driven by Pseudospark-Sourced Sheet Electron Beam
TL;DR: In this paper, a backward wave oscillator based on a double-staggered grating (DSG) slow wave structure (SWS) is investigated as a high-power wideband terahertz (THz) source, driven by a sheet electron beam emitting from a pseudospark plasma cathode.
References
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Journal ArticleDOI
Sustained Kilowatt Lasing in a Free-Electron Laser with Same-Cell Energy Recovery
George R. Neil,Courtlandt L. Bohn,Stephen V. Benson,George Biallas,David Douglas,H. F. Dylla,Robin J. Evans,J. Fugitt,A. Grippo,Joseph Gubeli,Richard Hill,Kevin Jordan,Rui Li,Lia Merminga,Philippe Piot,J. Preble,Michelle D. Shinn,T. Siggins,R. Walker,Byung Yunn +19 more
TL;DR: The Jefferson Laboratory's kW-level infrared free-electron laser utilizes a superconducting accelerator that recovers about 75% of the electron-beam power, and in achieving first lasing, the accelerator operated "straight ahead" to deliver 38-MeV, 1.1-mA cw current for lasing near 5 mA.
Journal ArticleDOI
Novosibirsk Free Electron Laser—Facility Description and Recent Experiments
G.N. Kulipanov,Elena G. Bagryanskaya,E. 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,Oleg A. Shevchenko,Alexander Skrinsky,Sergey L. Veber,Nikolay Vinokurov +17 more
TL;DR: The design and operational characteristics of the Novosibirsk free electron laser facility are described in this article, and selected experiments in the terahertz range carried out recently at the user stations are surveyed.
Journal ArticleDOI
Generation of Terahertz Surface Plasmon Polaritons Using Nondiffractive Bessel Beams with Orbital Angular Momentum
Boris A. Knyazev,Boris A. Knyazev,Yu. Yu. Choporova,Yu. Yu. Choporova,Mikhail S. Mitkov,Mikhail S. Mitkov,Mikhail S. Mitkov,Vladimir S. Pavelyev,B. O. Volodkin +8 more
TL;DR: A new effect, a dependence of the efficiency of SPP generation on the direction of the azimuthal component of incident-radiation Poynting vector, was revealed.
Journal ArticleDOI
Compact 13.5-nm free-electron laser for extreme ultraviolet lithography
TL;DR: In this paper, the feasibility of a free-electron laser EUV source driven by a multiturn superconducting energy-recovery linac (ERL) was investigated.
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.
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Novosibirsk Free Electron Laser—Facility Description and Recent Experiments
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The Novosibirsk free electron laser facility
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