Alexey Eliseev
Joint Institute for Nuclear Research
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Publication
Featured researches published by Alexey Eliseev.
Physics of Particles and Nuclei Letters | 2012
E. M. Syresin; V. A. Mikhailov; A. V. Tuzikov; Nicolai Agapov; E. D. Donets; E. E. Donets; Alexey Eliseev; V. N. Karpinskii; A. D. Kovalenko; A. Malakhov; I. N. Meshkov; A. G. Ol’shevskii; G. V. Trubnikov; G. G. Khodzhibagyan; G. D. Shirkov; S. G. Shirkov
The project of a superconducting medical synchrotron for carbon therapy in the ion energy range from 140 to 400 MeV/n is discussed in this paper. This project is aimed at developing and building a medical synchrotron on the basis of superconducting technologies at JINR under the construction of the Nuclotron accelerator complex. A linear accelerator with alternating phase focusing is proposed for injecting carbon ion into the synchrotron, while it is planned to use a superconducting gantry weighing about 150 t for delivering radiation treatment to patients from all directions.
Physics of Particles and Nuclei Letters | 2010
Alexey Eliseev; I. N. Meshkov; V. A. Mikhailov; A. O. Sidorin
The main objective of the NICA project developed at the Joint Institute for Nuclear Research (JINR) is to conduct experimental studies with colliding heavy ion beams in an energy range of 1–4.5 GeV/nucleonucleon with luminosity on the level of 1 × 1027 cm−2 s−1. In this paper the operation regime of the collider injection chain providing the bunch with experimentally desirable parameters at the output of the Nuclotron is considered for gold ions as an example.
Physics of Particles and Nuclei Letters | 2016
Oleg Brovko; Andrey Butenko; A. Yu. Grebentsov; Alexey Eliseev; I. N. Meshkov; A. L. Svetov; A. O. Sidorin; V. M. Slepnev
The NICA complex comprises the Booster and Nuclotron synchrotrons for accelerating particle beams to the required energy and the Collider machine, in which particle collisions are investigated. The experimental heavy-ion program deals with ions up to Au+79. The light-ion program deals with polarized deuterons and protons. Grouping of a beam coasting in an ion chamber is required in many parts of the complex. Beam grouping may effectively increase the longitudinal emittance and particle losses. To avoid these negative effects, various regimes of adiabatic grouping have been simulated and dedicated experiments with a deuteron beam have been conducted at the Nuclotron machine. As a result, we are able to construct and optimize the beam-grouping equipment, which provides a capture efficiency near 100% either retaining or varying the harmonic multiplicity of the HF system.
Physics of Particles and Nuclei Letters | 2012
A. Angelov; B. Angelov; Alexey Eliseev; I. N. Meshkov; V. A. Mikhailov; A. O. Sidorin; N. D. Topilin; G. V. Trubnikov; A. V. Tuzikov
A heavy-ion collider, i.e., the Nuclotron-based Ion Collider Facility (NICA), is being developed at the Joint Institute for Nuclear Research (JINR) in Dubna, Russia. The aim of this project is to construct a new accelerator complex for conducting experiments with colliding ion beam (at the first stage of the project) and with polarized proton and deuteron beams (at the second stage). The NICA accelerator complex will consist of two linear accelerators, two synchrotrons, two collider rings, and beam transportation lines. The magnetic lattice and diagnostic and correction systems for the NICA beam transportation lines are described in this report.
Archive | 2010
G. V. Trubnikov; Nicolai Agapov; V. Alexandrov; Andrey Butenko; Alexey Eliseev; V. Kekelidze; Hamlet Khodzhibagiyan; Valery Kobets; A. D. Kovalenko; Oleg Kozlov; A. Kuznetsov; I. N. Meshkov; Vladimir Mikhaylov; Valery Monchinsky; V. Shevtsov; Anatoly Sidorin; A. N. Sissakian; A. V. Smirnov; A. S. Sorin; V. Toneev; Valery Volkov; V. Zhabitsky; Oleg Brovko; I. Issinsky; A. Fateev; Alexandr Philippov
25th Russian Particle Accelerator Conf. (RuPAC'16), St. Petersburg, Russia, November 21-25, 2016 | 2017
Anatoly Sidorin; Nicolai Agapov; Alexander Alfeev; Vasiliy Andreev; V. Batin; Aleksandr Belov; Oleg Brovko; Vladimir Bugaev; Andrey Butenko; Denis Donets; Alexey Eliseev; V. Fimushkin; Evgeny Gorbachev; Ivan Gorelyshev; Alexander Govorov; Alexander Grebentsov; Evgeny Ivanov; Viktor Karpinsky; Hamlet Khodzhibagiyan; Alexander Kirichenko; Valery Kobets; A. D. Kovalenko; Oleg Kozlov; Konstantin Levterov; Vladimir Mikhailov; Valery Monchinsky; Alexander Nesterov; Yury Nozhenko; Andrey Osipenkov; Alexandr Philippov
Archive | 2010
Anatoly Sidorin; Nicolai Agapov; Alexey Eliseev; Viktor Karpinsky; Hamlet Khodzhibagiyan; A. D. Kovalenko; G.L.Kuznetsov; I. N. Meshkov; Vladimir Mikhaylov; Valery Monchinsky; A. V. Smirnov; G. V. Trubnikov; Bogdan Vasilishin
ICFA Beam Dyn.Newslett. | 2010
Anatoly Sidorin; Alexey Eliseev; Viktor Karpinsky; Oleg Brovko; Valery Volkov; Oleg Kozlov; I. N. Meshkov; I. Slepnev; A. N. Sissakian; Andrey Butenko; V. Kekelidze; Hamlet Khodzhibagiyan; Alexander Govorov; Valery Monchinsky; Alexander Kirichenko; V. Shevtsov; Nicolai Agapov; Sergey Romanov; Vladimir Mikhaylov; Bogdan Vasilishin; A. D. Kovalenko; G. V. Trubnikov; Denis Donets; V. Batin; V. Alexandrov
Presented at | 2010
Anatoly Sidorin; Victor Alexandrov; Vladimir Shevtsov; Hamlet Khodzhibagiyan; Vladimir Mikhaylov; Alexey Eliseev; Viktor Karpinsky; Sergey Romanov; Nicolai Agapov; V. Slepnev; I. Slepnev; Alexander Kirichenko; Bogdan Vasilishin; V. Kekelidze; G. V. Trubnikov; Denis Donets; Alexander Govorov; A. N. Sissakian; Valery Monchinsky; Andrey Butenko; Oleg Brovko; Oleg Kozlov; V. Batin; Valery Volkov; A. D. Kovalenko; I. N. Meshkov
Proceedings, 13th Heavy Ion Accelerator Technology Conference (HIAT2015): Yokohama, Japan, September 7-11, 2015 | 2016
A. D. Kovalenko; Nicolai Agapov; Oleg Brovko; Andrey Butenko; Evgeny Donets; Alexey Eliseev; V. Fimushkin; Alexander Govorov; Evgeny Ivanov; Viktor Karpinsky; V. Kekelidze; Hamlet Khodzhibagiyan; Vladimir Mikhailov; Valery Monchinsky; Sergey Romanov; Anatoly Sidorin; V. M. Slepnev; Alexander Smirnov; Evgeny Syresin; G. V. Trubnikov; Valery Volkov
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