ICALEPCS2013 - List of Authors (Hrovatin, R.)

Paper	Title	Page
THPPC051	First Operation of New Electron Beam Orbit Measurement System at SIBERIA-2	1186
	Y.A. Fomin, V. Korchuganov, N.I. Moseiko, S.I. Tomin, A.G. Valentinov NRC, Moscow, Russia R. Hrovatin, P. Leban I-Tech, Solkan, Slovenia
	The paper focuses on the results of commission and usage of the electron beam orbit measurement system at synchrotron radiation source SIBERIA-2 realized at present time at Kurchatov Institute. The main purpose of new orbit measurement system creation is an improvement of the electron beam diagnostic system at the storage ring. This system provides continuous measurements of the electron beam closed orbit during storing, ramping and operation for users. Besides, with the help of the system it is possible to carry out turn-by-turn measurements of the electron beam trajectory during injection process. After installation of new orbit measurement system we obtained a very good instrument to study electron beam dynamics into the main storage ring in detail. The paper describes the new orbit measurement system, its technical performance, the results of commission and our experience.

THPPC128	The Feedback System for Damping Coherent Betatron and Synchrotron Oscillations of Electron Beam at Dedicated Synchrotron Radiation Source SIBERIA-2.	1359
	A.S. Smygacheva, Y.A. Fomin, V. Korchuganov, N.I. Moseiko, Yu.F. Tarasov, A.G. Valentinov NRC, Moscow, Russia R. Cerne, R. Hrovatin, D.T. Tinta I-Tech, Solkan, Slovenia
	The description of feedback system for dumping coherent betatron and synchrotron oscillations of the electron beam which is realized at present time at the dedicated synchrotron radiation storage ring SIBERIA-2 in Kurchatov Institute is presented in the paper. The installation of new feedback system into the main ring SIBERIA-2 will allow to improve the quality of synchrotron radiation beams. In particular, at the beam injection energy (450 MeV) with the help of new feedback system we can increase maximum stored beam current and at operation beam energy (2.5 GeV) the system will provide additional electron beam spatial stabilization. The paper describes new feedback system description, the principle of operation and its technical characteristics. As well, we describe in detail the design of kickers (especially for longitudinal plane) used into the system as they are one of the important feedback system components.

Paper

Title

Page

First Operation of New Electron Beam Orbit Measurement System at SIBERIA-2

1186

Y.A. Fomin, V. Korchuganov, N.I. Moseiko, S.I. Tomin, A.G. Valentinov
NRC, Moscow, Russia
R. Hrovatin, P. Leban
I-Tech, Solkan, Slovenia

The paper focuses on the results of commission and usage of the electron beam orbit measurement system at synchrotron radiation source SIBERIA-2 realized at present time at Kurchatov Institute. The main purpose of new orbit measurement system creation is an improvement of the electron beam diagnostic system at the storage ring. This system provides continuous measurements of the electron beam closed orbit during storing, ramping and operation for users. Besides, with the help of the system it is possible to carry out turn-by-turn measurements of the electron beam trajectory during injection process. After installation of new orbit measurement system we obtained a very good instrument to study electron beam dynamics into the main storage ring in detail. The paper describes the new orbit measurement system, its technical performance, the results of commission and our experience.

THPPC128

The Feedback System for Damping Coherent Betatron and Synchrotron Oscillations of Electron Beam at Dedicated Synchrotron Radiation Source SIBERIA-2.

1359

A.S. Smygacheva, Y.A. Fomin, V. Korchuganov, N.I. Moseiko, Yu.F. Tarasov, A.G. Valentinov
NRC, Moscow, Russia
R. Cerne, R. Hrovatin, D.T. Tinta
I-Tech, Solkan, Slovenia

The description of feedback system for dumping coherent betatron and synchrotron oscillations of the electron beam which is realized at present time at the dedicated synchrotron radiation storage ring SIBERIA-2 in Kurchatov Institute is presented in the paper. The installation of new feedback system into the main ring SIBERIA-2 will allow to improve the quality of synchrotron radiation beams. In particular, at the beam injection energy (450 MeV) with the help of new feedback system we can increase maximum stored beam current and at operation beam energy (2.5 GeV) the system will provide additional electron beam spatial stabilization. The paper describes new feedback system description, the principle of operation and its technical characteristics. As well, we describe in detail the design of kickers (especially for longitudinal plane) used into the system as they are one of the important feedback system components.