INVITED PAPERS


SR Sources And FELs

FIRST RESULTS OF SIBERIA-2 STORAGE RING OPERATION WITH 7.5 T SUPERCONDUCTING WIGGLER

A. Valentinov¹, V. Korchuganovª¹, M. Kovalchuk¹, Yu. Krylov¹, V. Kvardakov¹, D. Odintsov¹, Yu. Yupinov¹, S. Khrushev², N. Mezentsev², E. Miginsky², V. Shkaruba², V. Tsukanov²

¹Russian Research Centre Kurchatov Institute, Moscow, Russia

²Budker Institute of Nuclear Physics Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russia

Abstract

7.5 T 19-pole superconducting wiggler has been installed on SIBERIA-2 storage ring in December 2007. First results of an operation of Siberia-2 with the wiggler are described. An influence of the wiggler on betatron tunes, closed orbit, betatron functions and other beam parameters is discussed. Calculated and measured influence on beam parameters is compared.

ª – corresponding author

Paper Slides

185 

NOVOSIBIRSK FREE ELECTRON LASER: OPERATION AND SECOND STAGE COMMISSIONING

N.A. Vinokurovª, E.N. Dementyev, B.A. Dovzhenko, N.G. Gavrilov, B.A. Knyazev, E.I. Kolobanov, V.V. Kubarev, G.N. Kulipanov, A.N. Matveenko, L.E. Medvedev, S.V. Miginsky, L.A. Mironenko, V.K. Ovchar, V.M. Popik, T.V. Salikova, M.A. Scheglov, S.S. Serednyakov, O.A. Shevchenko, A.N. Skrinsky, V.G. Tcheskidov, Yu.F. Tokarev, P.D. Vobly

Budker Institute of Nuclear Physics Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russia

Abstract

The first stage of Novosibirsk high power free electron laser (FEL) is in operation since 2003. It is based on the normal conducting CW energy recovery linac (ERL). Now the FEL provides electromagnetic radiation in the wavelength range 120÷230 micron. The maximum average power is 400 W. The minimum measured linewidth is 0.3%, which is close to the Fourier-transform limit. Four user stations are in operation now. Two other are in progress. Novosibirsk ERL has rather complicated magnetic system. One orbit for 11 MeV energy with terahertz FEL lies in vertical plane.

Other four orbits lie in the horizontal plane. The beam is directed to these orbits by switching on of two round magnets. In this case electrons pass four times through accelerating RF cavities, obtaining 40 MeV energy. Then, (at fourth orbit) the beam is used in FEL, and then is decelerated four times.

At the second orbit (20 MeV) we have bypass with third FEL. When magnets of bypass are switched on, the beam passes through this FEL. The length of bypass is chosen to provide the delay, which necessary to have deceleration instead of acceleration at the third passage through accelerating cavities.

Now two of four horizontal orbits are assembled and commissioned. The electron beam was accelerated twice and then decelerated down to low injection energy. First multi-orbit ERL operation was demonstrated successfully.

ª – corresponding author

Paper Slides

181 

SYNCHROTRON RADIATION IN SPECTROSCOPY

V. Mikhailinª

Chair of Optics and Spectroscopy, Physics Department, Lomonosov Moscow State University, Moscow, Russia

ª – corresponding author

No paper Slides

Contribution not received