RuPAC2018 - List of Authors (Golubev, A.)

Paper	Title	Page
TUPSA57	Beam Scanner Development for Applied Physics Research at NUCLOTRON
	V. Skachkov, A. Golubev, A.V. Kantsyrev, V.A. Panyushkin, O. Sergeeva ITEP, Moscow, Russia
	Scanner for applied physics research at NUCLOTRON accelerator is described. It provides homogeneous irradiation of 200×200 mm target by protons and heavy ions with Z/A= 0.3-0.5 for solving of wide range of applied tasks in the materials science and particle effects mechanisms in biological objects research. The scanner has been optimized for the hardest case: Z/A=0.3, energy - 800 MeV/u, emittance - 40 pimmmrad to operate both in single and multi-frame modes of sample irradiations. The most compact magnetic dipoles have been found as optimization result, which permits to arrange it together with other required elements at NUCLOTRON transport channel. Main characteristics of power supply were obtained and discussed.
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TUPSA61	Development of the Ion Beams HIPR-1 Transport Channel for Ion Energy Losses Measurement in Plasma Target	276
	E. Khabibullina, P.A. Fedin, R. Gavrilin, A. Golubev, A.V. Kantsyrev, T. Kulevoy, S.A. Visotski ITEP, Moscow, Russia P.A. Fedin, T. Kulevoy NRC, Moscow, Russia T. Kulevoy MEPhI, Moscow, Russia
	The research of the processes occurring during interaction of heavy ions with plasma is carried out on the Heavy Ion RFQ HIP-1 (heavy Ion Prototype) in the ITEP. The HIPr-1 is a heavy ion RFQ linac which accelerates ion beams generated by either MEVVA ion source or duoplasmatron. It provides accelerated beam of ions from C+ to U4+ with energy of 101keV/n and several mA of current. Gas-discharge plasma target which was produced in ITEP is used for the measurement of ion energy losses in the ionized matter. The diaphragms at the entrance and exit of the plasma target provide the necessary pressure into the transport channel (which is 10^-6 mbar), while the gas pressure in the target equals to several mbar. The design of the beam transport channel for performing experiments to determine the energy losses in plasma was developed based on the beam dynamics simulation. According to the obtained results the first successful tests on the HIPr-1 were held.
DOI •	reference for this paper ※ https://doi.org/10.5072/JACoW-RuPAC2018-TUPSA61
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Paper

Title

Page

TUPSA57

Beam Scanner Development for Applied Physics Research at NUCLOTRON

V. Skachkov, A. Golubev, A.V. Kantsyrev, V.A. Panyushkin, O. Sergeeva
ITEP, Moscow, Russia

Scanner for applied physics research at NUCLOTRON accelerator is described. It provides homogeneous irradiation of 200×200 mm target by protons and heavy ions with Z/A= 0.3-0.5 for solving of wide range of applied tasks in the materials science and particle effects mechanisms in biological objects research. The scanner has been optimized for the hardest case: Z/A=0.3, energy - 800 MeV/u, emittance - 40 pi*mm*mrad to operate both in single and multi-frame modes of sample irradiations. The most compact magnetic dipoles have been found as optimization result, which permits to arrange it together with other required elements at NUCLOTRON transport channel. Main characteristics of power supply were obtained and discussed.

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TUPSA61

Development of the Ion Beams HIPR-1 Transport Channel for Ion Energy Losses Measurement in Plasma Target

276

E. Khabibullina, P.A. Fedin, R. Gavrilin, A. Golubev, A.V. Kantsyrev, T. Kulevoy, S.A. Visotski
ITEP, Moscow, Russia
P.A. Fedin, T. Kulevoy
NRC, Moscow, Russia
T. Kulevoy
MEPhI, Moscow, Russia

The research of the processes occurring during interaction of heavy ions with plasma is carried out on the Heavy Ion RFQ HIP-1 (heavy Ion Prototype) in the ITEP. The HIPr-1 is a heavy ion RFQ linac which accelerates ion beams generated by either MEVVA ion source or duoplasmatron. It provides accelerated beam of ions from C+ to U4+ with energy of 101keV/n and several mA of current. Gas-discharge plasma target which was produced in ITEP is used for the measurement of ion energy losses in the ionized matter. The diaphragms at the entrance and exit of the plasma target provide the necessary pressure into the transport channel (which is 10^-6 mbar), while the gas pressure in the target equals to several mbar. The design of the beam transport channel for performing experiments to determine the energy losses in plasma was developed based on the beam dynamics simulation. According to the obtained results the first successful tests on the HIPr-1 were held.

DOI •

reference for this paper ※ https://doi.org/10.5072/JACoW-RuPAC2018-TUPSA61

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