RUPAC2012 - List of Authors (Kravchuk, L.V.)

Paper

Title

Page

Multipurpose Research Complex Based on the INR High Intensity Proton Linac

90

L.V. Kravchuk, A. Feschenko, M.I. Grachev, V.L. Serov
RAS/INR, Moscow, Russia

Funding: Russian Academy of Science
Scientific Complex based on the 600 MeV Proton Linac is under operation at the INR, Troitsk, Moscow to provide both basic and applied research. At the moment proton beam from the Linac with energy about 210 MeV and average current about 130 μA is transporting to the Experimental Area to be use for following facilities: three Spallation Neutron sources, the Isotope Production facility and the Beam Therapy complex. Status of the Linac and Experimental Area as well as the tuning procedures to decrease particle loss in high-intensity mode of operation are given in the paper.

Slides WEYCH02 [2.281 MB]

WEPPC051

Proton Channel that Provides Simultaneous Independent Operation of a Treatment Room of Proton Therapy and Neutron Sources of the Experimental Complex INR RAS

544

E.V. Ponomareva, S.V. Akulinichev, M.I. Grachev, L.V. Kravchuk
RAS/INR, Moscow, Russia
V.N. Zapolsky
IHEP, Moscow Region, Russia

The manufactured magneto-optic channel in the experimental complex of Moscow meson factory INR RAS, the system of splitting beams into a neutron source and the channel for medical application are specified. The system of independent adjustment of energy of protons for a medical channel is described.

WEPPD012

Standing Wave RF Deflectors with Reduced Aberrations

590

V.V. Paramonov, L.V. Kravchuk, P. Orlov
RAS/INR, Moscow, Russia
K. Flöttmann
DESY, Hamburg, Germany

Funding: in part RBFR N 12-02-00654-a
Deflecting structures are now widely used for bunch phase space manipulations either with bunch rotation for special bunch diagnostic or in emittance exchange experiments. Even if the field of synchronous harmonic is aberration free, the higher space harmonics provide non linear additives in the field distribution, leading to emittance growth during phase space manipulation. Standing wave operation is more RF efficient for short deflectors. The criterion of the field quality estimation and results is of deflecting structure consideration for minimization of non linear additives are presented. The solutions for dispersion correction together with end cells optimization are described too.

Paper	Title	Page
WEYCH02	Multipurpose Research Complex Based on the INR High Intensity Proton Linac	90
	L.V. Kravchuk, A. Feschenko, M.I. Grachev, V.L. Serov RAS/INR, Moscow, Russia
	Funding: Russian Academy of Science Scientific Complex based on the 600 MeV Proton Linac is under operation at the INR, Troitsk, Moscow to provide both basic and applied research. At the moment proton beam from the Linac with energy about 210 MeV and average current about 130 μA is transporting to the Experimental Area to be use for following facilities: three Spallation Neutron sources, the Isotope Production facility and the Beam Therapy complex. Status of the Linac and Experimental Area as well as the tuning procedures to decrease particle loss in high-intensity mode of operation are given in the paper.
	Slides WEYCH02 [2.281 MB]

WEPPC051	Proton Channel that Provides Simultaneous Independent Operation of a Treatment Room of Proton Therapy and Neutron Sources of the Experimental Complex INR RAS	544
	E.V. Ponomareva, S.V. Akulinichev, M.I. Grachev, L.V. Kravchuk RAS/INR, Moscow, Russia V.N. Zapolsky IHEP, Moscow Region, Russia
	The manufactured magneto-optic channel in the experimental complex of Moscow meson factory INR RAS, the system of splitting beams into a neutron source and the channel for medical application are specified. The system of independent adjustment of energy of protons for a medical channel is described.

WEPPD012	Standing Wave RF Deflectors with Reduced Aberrations	590
	V.V. Paramonov, L.V. Kravchuk, P. Orlov RAS/INR, Moscow, Russia K. Flöttmann DESY, Hamburg, Germany
	Funding: in part RBFR N 12-02-00654-a Deflecting structures are now widely used for bunch phase space manipulations either with bunch rotation for special bunch diagnostic or in emittance exchange experiments. Even if the field of synchronous harmonic is aberration free, the higher space harmonics provide non linear additives in the field distribution, leading to emittance growth during phase space manipulation. Standing wave operation is more RF efficient for short deflectors. The criterion of the field quality estimation and results is of deflecting structure consideration for minimization of non linear additives are presented. The solutions for dispersion correction together with end cells optimization are described too.