RUPAC2012 - List of Keywords (factory)

Paper	Title	Other Keywords	Page
WEPPC014	Performance of the Magnetic System of a 12 MeV UPC Race-Track Microtron	simulation, dipole, microtron, vacuum	472
	I. Vladimirov MSU SINP, Moscow, Russia I.V. Chernov, V.V. Zacharov Elamt-PM, Kaluga, Russia Yu.A. Kubyshin, J.P. Rigla UPC, Barcelona, Spain N.I. Pakhomov, V.I. Shvedunov MSU, Moscow, Russia
	The performance of the magnetic system of a 12 MeV electron race-track microtron (RTM) which is under construction at the Universitat Politècnica de Catalunya (UPC) is described. The RTM magnetic system consists of two four-pole end magnets with the main field level about 0.8 T, one quadrupole and four beam extraction dipoles. As a source of the magnetic field in these magnets a Sa-Co rare earth permanent magnet material is used. This helps to get a quite compact design of the RTM and allows to place the magnetic systems in a high vacuum environment of the accelerator vacuum chamber. We discuss results of numerical simulations of the tuning of the end magnets by mean of special tuners and describe their engineering design which permits to assemble the magnets and fix the Sa-Co blocks without gluing. Also a method and results of magnetic field distribution measurements and magnet tuning are reported.

WEPPC034	Power Supply System of the Pulse Bending Magnet for the Linear Accelerator Operated at the Moscow Meson Factory	kicker, power-supply, proton, isotope-production	515
	B.O. Bolshakov, A.A. Budtov, A.V. Popov, A.V. Pozhensky NIIEFA, St. Petersburg, Russia A. Feschenko, O.V. Grekhov, V.N. Mikhailov, V.L. Serov RAS/INR, Moscow, Russia
	A bending magnet with a power supply system has been designed and manufactured in the NIIEFA for the Institute for Nuclear Research RAS to ensure simultaneous operation of the linear accelerator in the experimental and isotopic systems. The arrangement has been installed and adjusted in the INR RAS. In the paper are described a schematic and principle of operation of the arrangement ensuring the bending of a part of the beam macroimpulses to the isotopic system with a frequency of up to 50 Hz. The adjustment results are presented.

Paper

Title

Other Keywords

Page

WEPPC014

Performance of the Magnetic System of a 12 MeV UPC Race-Track Microtron

simulation, dipole, microtron, vacuum

472

I. Vladimirov
MSU SINP, Moscow, Russia
I.V. Chernov, V.V. Zacharov
Elamt-PM, Kaluga, Russia
Yu.A. Kubyshin, J.P. Rigla
UPC, Barcelona, Spain
N.I. Pakhomov, V.I. Shvedunov
MSU, Moscow, Russia

The performance of the magnetic system of a 12 MeV electron race-track microtron (RTM) which is under construction at the Universitat Politècnica de Catalunya (UPC) is described. The RTM magnetic system consists of two four-pole end magnets with the main field level about 0.8 T, one quadrupole and four beam extraction dipoles. As a source of the magnetic field in these magnets a Sa-Co rare earth permanent magnet material is used. This helps to get a quite compact design of the RTM and allows to place the magnetic systems in a high vacuum environment of the accelerator vacuum chamber. We discuss results of numerical simulations of the tuning of the end magnets by mean of special tuners and describe their engineering design which permits to assemble the magnets and fix the Sa-Co blocks without gluing. Also a method and results of magnetic field distribution measurements and magnet tuning are reported.

WEPPC034

Power Supply System of the Pulse Bending Magnet for the Linear Accelerator Operated at the Moscow Meson Factory

kicker, power-supply, proton, isotope-production

515

B.O. Bolshakov, A.A. Budtov, A.V. Popov, A.V. Pozhensky
NIIEFA, St. Petersburg, Russia
A. Feschenko, O.V. Grekhov, V.N. Mikhailov, V.L. Serov
RAS/INR, Moscow, Russia

A bending magnet with a power supply system has been designed and manufactured in the NIIEFA for the Institute for Nuclear Research RAS to ensure simultaneous operation of the linear accelerator in the experimental and isotopic systems. The arrangement has been installed and adjusted in the INR RAS. In the paper are described a schematic and principle of operation of the arrangement ensuring the bending of a part of the beam macroimpulses to the isotopic system with a frequency of up to 50 Hz. The adjustment results are presented.