RUPAC2018 - List of Authors (Lozeev, Y.)

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MOXMH04

Current Results of the 4th Generation Light Source USSR (Former SSRS4) Development

use link to see paper's listing under its alternate paper code

S.M. Polozov, I.A. Ashanin, S.V. Barabin, Y.A. Bashmakov, A.E. Blagov, D.K. Danilova, A.A. Dementev, V.V. Dmitriyeva, N.S. Dudina, V.S. Dyubkov, A.M. Feshchenko, Ye. Fomin, A. Gogin, M. Gusarova, Yu.D. Kliuchevskaia, V. Korchuganov, T. Kulevoy, M.V. Lalayan, D.A. Liakin, Y. Lozeev, T.A. Lozeeva, A.A. Makhoro, N.V. Marchenkov, S.V. Matsievskiy, V.Yu. Mekhanikova, O.A. Mosolova, A.Y. Orlov, A.V. Popova, A.I. Pronikov, V.I. Rashchikov, A.A. Savchenko, R.A. Senin, V.L. Shatokhin, A.S. Smygacheva, A.A. Tishchenko, V. Ushakov, A.G. Valentinov
NRC, Moscow, Russia
I.A. Ashanin, Y.A. Bashmakov, D.K. Danilova, A.A. Dementev, V.V. Dmitriyeva, V.S. Dyubkov, A.M. Feshchenko, M. Gusarova, Yu.D. Kliuchevskaia, T. Kulevoy, M.V. Lalayan, Y. Lozeev, T.A. Lozeeva, A.A. Makhoro, S.V. Matsievskiy, V.Yu. Mekhanikova, O.A. Mosolova, A.S. Panishev, S.M. Polozov, A.V. Popova, A.I. Pronikov, V.I. Rashchikov, A.V. Samoshin, A.A. Savchenko, V.L. Shatokhin, A.A. Tishchenko
MEPhI, Moscow, Russia
S.V. Barabin, A. Bolshakov, T. Kulevoy, D.A. Liakin, A.Y. Orlov
ITEP, Moscow, Russia
Y.A. Bashmakov
LPI, Moscow, Russia
J.C. Biasci, J.M. Chaize, G. Le Bec, S.M. Liuzzo, C. Maccarrone, H.P. Marques, P. Raimondi, J.-L. Revol, K.B. Scheidt, S.M. White
ESRF, Grenoble, France

Funding: Project is supported by Ministry of Science and Education of Russian Federation, Agreements 14.616.21.0086 from 24.11.2017, ID RFMEFI61617X0086, 14.616.21.0088 from 24.11.2017, ID RFMEFI61617X0088
The new project of 4th generation synchrotron light source called Ultimate Source of Synchrotron Radiation (USSR) today is under development at NRC Kurchatov Institute. A number of Russian institutions also take part in this project: NRNU MEPhI, NRC "Kurchatov Institute" - ITEP and others. The European Synchrotron Radiation Facility (ESRF, Grenoble, France) is the main international collaborator of the project. It is proposed that USSR include both a storage ring and soft FEL, and one linac will be used for injection in the storage ring and as a driver for the FEL. The preliminary design of 6 GeV storage ring with transverse emittance of 50-70 pm*rad is done. The general concept of the top-up linac is proposed and the beam dynamics is simulated. The injection system and the vacuum systems are studied. Current results of the USSR R&D will be presented in this report.

Slides MOXMH04 [5.520 MB]

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WEPSB04

Thermodynamics Simulation for the CW Radio-Frequency Quadrupole Accelerator

282

S.M. Polozov, Y. Lozeev
MEPhI, Moscow, Russia

Design and construction of CW high intensity linacs are important issues of worldwide accelerator technology development. RFQ linacs are useful for large scale research facilities such as SNS, ADS and FRIB. RFQ are necessary to use for low-energy nuclear and radioactive ion physics (e.g., DERICA - Dubna Electron - Radioactive Ion Collider fAcility project, Dubna, Russia). Some solutions are applied for RFQ to oper-ate in CW mode. The decrease of accelerating field and of RF field overvoltage is one of that solutions. Maximal field for CW RFQ is traditionally limited by 1.3-1.5 of the Kilpatrick criterion value comparatively of 1.8-2.0 for the pulse mode. But the thermostabilization of the RFQ cavity is very important problem. Accelerating structure undergoes high thermal loads for operating a CW mode, therefore water cooling system is needed. In this report a selection of an optimal resonator shape and water cooling system con-figuration was done and thermodynamics simulation results will presented.

Poster WEPSB04 [10.972 MB]

DOI •

reference for this paper ※ https://doi.org/10.18429/JACoW-RUPAC2018-WEPSB04

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THPSC01

Results of Beam Dynamics Simulation for the Main Ring of the 4th Generation Light Source USSR

V.S. Dyubkov, A.A. Makhoro, O.A. Mosolova, S.M. Polozov
NRC, Moscow, Russia
A. Bolshakov
ITEP, Moscow, Russia
V.S. Dyubkov, Y. Lozeev, T.A. Lozeeva, A.A. Makhoro, V.Yu. Mekhanikova, O.A. Mosolova, S.M. Polozov, V.I. Rashchikov, A.V. Samoshin
MEPhI, Moscow, Russia
S.M. Liuzzo, P. Raimondi, S.M. White
ESRF, Grenoble, France

Funding: Project is supported by the Ministry of Science and Education of Russian Federation (agreement No 14.616.21.0086 from 24.11.2017, ID RFMEFI61617X0086)
The new 4th generation synchrotron light source USSR (Ultimate Source of Synchrotron Radiation) is under development at National Research Center "Kurchatov Institute" now. The full-scale 6 GeV storage ring is considered as the main part of USSR light source. Beam dynamics simulations shows that this ring, with 7BA magnet lattice, can provide the horizontal beam emittance close to (50-70) pm*rad. Currently, circumference of storage ring is about 1300 m because of considering magnets without combined functions. The general concept of the storage ring, its magnetic lattice and first beam dynamics simulation results will be discussed.

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Paper	Title	Page
MOXMH04	Current Results of the 4th Generation Light Source USSR (Former SSRS4) Development
THPSC02	use link to see paper's listing under its alternate paper code
	S.M. Polozov, I.A. Ashanin, S.V. Barabin, Y.A. Bashmakov, A.E. Blagov, D.K. Danilova, A.A. Dementev, V.V. Dmitriyeva, N.S. Dudina, V.S. Dyubkov, A.M. Feshchenko, Ye. Fomin, A. Gogin, M. Gusarova, Yu.D. Kliuchevskaia, V. Korchuganov, T. Kulevoy, M.V. Lalayan, D.A. Liakin, Y. Lozeev, T.A. Lozeeva, A.A. Makhoro, N.V. Marchenkov, S.V. Matsievskiy, V.Yu. Mekhanikova, O.A. Mosolova, A.Y. Orlov, A.V. Popova, A.I. Pronikov, V.I. Rashchikov, A.A. Savchenko, R.A. Senin, V.L. Shatokhin, A.S. Smygacheva, A.A. Tishchenko, V. Ushakov, A.G. Valentinov NRC, Moscow, Russia I.A. Ashanin, Y.A. Bashmakov, D.K. Danilova, A.A. Dementev, V.V. Dmitriyeva, V.S. Dyubkov, A.M. Feshchenko, M. Gusarova, Yu.D. Kliuchevskaia, T. Kulevoy, M.V. Lalayan, Y. Lozeev, T.A. Lozeeva, A.A. Makhoro, S.V. Matsievskiy, V.Yu. Mekhanikova, O.A. Mosolova, A.S. Panishev, S.M. Polozov, A.V. Popova, A.I. Pronikov, V.I. Rashchikov, A.V. Samoshin, A.A. Savchenko, V.L. Shatokhin, A.A. Tishchenko MEPhI, Moscow, Russia S.V. Barabin, A. Bolshakov, T. Kulevoy, D.A. Liakin, A.Y. Orlov ITEP, Moscow, Russia Y.A. Bashmakov LPI, Moscow, Russia J.C. Biasci, J.M. Chaize, G. Le Bec, S.M. Liuzzo, C. Maccarrone, H.P. Marques, P. Raimondi, J.-L. Revol, K.B. Scheidt, S.M. White ESRF, Grenoble, France
	Funding: Project is supported by Ministry of Science and Education of Russian Federation, Agreements 14.616.21.0086 from 24.11.2017, ID RFMEFI61617X0086, 14.616.21.0088 from 24.11.2017, ID RFMEFI61617X0088 The new project of 4th generation synchrotron light source called Ultimate Source of Synchrotron Radiation (USSR) today is under development at NRC Kurchatov Institute. A number of Russian institutions also take part in this project: NRNU MEPhI, NRC "Kurchatov Institute" - ITEP and others. The European Synchrotron Radiation Facility (ESRF, Grenoble, France) is the main international collaborator of the project. It is proposed that USSR include both a storage ring and soft FEL, and one linac will be used for injection in the storage ring and as a driver for the FEL. The preliminary design of 6 GeV storage ring with transverse emittance of 50-70 pm*rad is done. The general concept of the top-up linac is proposed and the beam dynamics is simulated. The injection system and the vacuum systems are studied. Current results of the USSR R&D will be presented in this report.
	Slides MOXMH04 [5.520 MB]
Export •	reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)

WEPSB04	Thermodynamics Simulation for the CW Radio-Frequency Quadrupole Accelerator	282
	S.M. Polozov, Y. Lozeev MEPhI, Moscow, Russia
	Design and construction of CW high intensity linacs are important issues of worldwide accelerator technology development. RFQ linacs are useful for large scale research facilities such as SNS, ADS and FRIB. RFQ are necessary to use for low-energy nuclear and radioactive ion physics (e.g., DERICA - Dubna Electron - Radioactive Ion Collider fAcility project, Dubna, Russia). Some solutions are applied for RFQ to oper-ate in CW mode. The decrease of accelerating field and of RF field overvoltage is one of that solutions. Maximal field for CW RFQ is traditionally limited by 1.3-1.5 of the Kilpatrick criterion value comparatively of 1.8-2.0 for the pulse mode. But the thermostabilization of the RFQ cavity is very important problem. Accelerating structure undergoes high thermal loads for operating a CW mode, therefore water cooling system is needed. In this report a selection of an optimal resonator shape and water cooling system con-figuration was done and thermodynamics simulation results will presented.
	Poster WEPSB04 [10.972 MB]
DOI •	reference for this paper ※ https://doi.org/10.18429/JACoW-RUPAC2018-WEPSB04
Export •	reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)

THPSC01	Results of Beam Dynamics Simulation for the Main Ring of the 4th Generation Light Source USSR
	V.S. Dyubkov, A.A. Makhoro, O.A. Mosolova, S.M. Polozov NRC, Moscow, Russia A. Bolshakov ITEP, Moscow, Russia V.S. Dyubkov, Y. Lozeev, T.A. Lozeeva, A.A. Makhoro, V.Yu. Mekhanikova, O.A. Mosolova, S.M. Polozov, V.I. Rashchikov, A.V. Samoshin MEPhI, Moscow, Russia S.M. Liuzzo, P. Raimondi, S.M. White ESRF, Grenoble, France
	Funding: Project is supported by the Ministry of Science and Education of Russian Federation (agreement No 14.616.21.0086 from 24.11.2017, ID RFMEFI61617X0086) The new 4th generation synchrotron light source USSR (Ultimate Source of Synchrotron Radiation) is under development at National Research Center "Kurchatov Institute" now. The full-scale 6 GeV storage ring is considered as the main part of USSR light source. Beam dynamics simulations shows that this ring, with 7BA magnet lattice, can provide the horizontal beam emittance close to (50-70) pm*rad. Currently, circumference of storage ring is about 1300 m because of considering magnets without combined functions. The general concept of the storage ring, its magnetic lattice and first beam dynamics simulation results will be discussed.
Export •	reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)