RuPAC2014 - List of Keywords (synchrotron-radiation)

Paper	Title	Other Keywords	Page
THZ01	Superconducting Multipole Wigglers for Generation of Synchrotron Radiation	wiggler, radiation, electron, synchrotron	296
	N.A. Mezentsev BINP SB RAS, Novosibirsk, Russia
	Superconducting multipole wigglers are very powerful instruments for generation of synchrotron radiation of high intensity. Use of a superconducting wire for creation of a sign alternating lateral magnetic field has the big advantages in comparison of permanent magnets and conventional electromagnets. Superconductivity use allows to create much higher magnetic field at the same field period and the vertical aperture for a beam. The high magnetic field allows not only to increase intensity, but also to expand spectrum of synchrotron radiations. The first superconducting wiggler has been made and installed on the VEPP-3 electron storage ring as a generator of synchrotron radiation in 1979. Nowadays tens of the wigglers are successfully working in the various synchrotron radiation centers and more than 10 of them were developed and made in Budker INP. The description of magnetic properties of the wigglers, parameters of both cryogenic and vacuum systems and their technical decisions are resulted in the report.
	Slides THZ01 [2.096 MB]

THPSC12	Effect of the Vertical Velocity Component on Properties of Synchrotron Radiation	radiation, electron, synchrotron, betatron	345
	O.E. Shishanin MSIU, Moscow, Russia
	This subject determines more precisely characteristics of synchrotron radiation when charge particle moves on the spiral in physical devices and a space. For this purpose first the Bessel functions of a high order are approximated to within the second approach. It is discussed that the vertical component of velocity in alternating magnetic fields of accelerators significantly changes spectral and angular distributions of radiation intensity.

THPSC42	Modernization of the Automated Control System of Kurchatov Synchrotron Radiation Source Using Citect SCADA	controls, software, synchrotron, radiation	417
	E.V. Kaportsev, V. Dombrovsky, Y.V. Efimov, V. Korchuganov, Y.V. Krylov, K. Moseev, N.I. Moseiko, A.G. Valentinov NRC, Moscow, Russia
	The running cycle of Kurchatov Synchrotron Radiation Source (KSRS) includes the injection of electrons with energy 80 MeV from the linear accelerator in the booster storage ring Siberia-1, the accumulation of a electron current up to 400 mA and, then, electron energy ramping up to 450 MeV with the subsequent extraction of electrons in the main ring, storage ring Siberia-2, and accumulation there up to 300 mA, and at last the energy ramping up to 2.5 GeV. A few years ago we started modernization of the automated control systems (ACS) of accelerator - storage complex. Modernization has affected the most important parts of the system - the system of data collection and control system. Used advanced solutions based on CAN and VME and modular complexes National Instruments. Currently begins implementation of the Citect SCADA system. In this paper the stages of implementation of the SCADA control system. Showing part of the system, which is already widely used, as well as parts of the system, which is scheduled to launch in the near future.

Paper

Title

Other Keywords

Page

THZ01

Superconducting Multipole Wigglers for Generation of Synchrotron Radiation

wiggler, radiation, electron, synchrotron

296

N.A. Mezentsev
BINP SB RAS, Novosibirsk, Russia

Superconducting multipole wigglers are very powerful instruments for generation of synchrotron radiation of high intensity. Use of a superconducting wire for creation of a sign alternating lateral magnetic field has the big advantages in comparison of permanent magnets and conventional electromagnets. Superconductivity use allows to create much higher magnetic field at the same field period and the vertical aperture for a beam. The high magnetic field allows not only to increase intensity, but also to expand spectrum of synchrotron radiations. The first superconducting wiggler has been made and installed on the VEPP-3 electron storage ring as a generator of synchrotron radiation in 1979. Nowadays tens of the wigglers are successfully working in the various synchrotron radiation centers and more than 10 of them were developed and made in Budker INP. The description of magnetic properties of the wigglers, parameters of both cryogenic and vacuum systems and their technical decisions are resulted in the report.

Slides THZ01 [2.096 MB]

THPSC12

Effect of the Vertical Velocity Component on Properties of Synchrotron Radiation

radiation, electron, synchrotron, betatron

345

O.E. Shishanin
MSIU, Moscow, Russia

This subject determines more precisely characteristics of synchrotron radiation when charge particle moves on the spiral in physical devices and a space. For this purpose first the Bessel functions of a high order are approximated to within the second approach. It is discussed that the vertical component of velocity in alternating magnetic fields of accelerators significantly changes spectral and angular distributions of radiation intensity.

THPSC42

Modernization of the Automated Control System of Kurchatov Synchrotron Radiation Source Using Citect SCADA

controls, software, synchrotron, radiation

417

E.V. Kaportsev, V. Dombrovsky, Y.V. Efimov, V. Korchuganov, Y.V. Krylov, K. Moseev, N.I. Moseiko, A.G. Valentinov
NRC, Moscow, Russia

The running cycle of Kurchatov Synchrotron Radiation Source (KSRS) includes the injection of electrons with energy 80 MeV from the linear accelerator in the booster storage ring Siberia-1, the accumulation of a electron current up to 400 mA and, then, electron energy ramping up to 450 MeV with the subsequent extraction of electrons in the main ring, storage ring Siberia-2, and accumulation there up to 300 mA, and at last the energy ramping up to 2.5 GeV. A few years ago we started modernization of the automated control systems (ACS) of accelerator - storage complex. Modernization has affected the most important parts of the system - the system of data collection and control system. Used advanced solutions based on CAN and VME and modular complexes National Instruments. Currently begins implementation of the Citect SCADA system. In this paper the stages of implementation of the SCADA control system. Showing part of the system, which is already widely used, as well as parts of the system, which is scheduled to launch in the near future.