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SUMMARY:SYLA – RUSSIAN 4TH GENERATION SYNCHROTRON
DTSTART;VALUE=DATE-TIME:20220713T122000Z
DTEND;VALUE=DATE-TIME:20220713T124000Z
DTSTAMP;VALUE=DATE-TIME:20260414T120727Z
UID:indico-contribution-524@events.sinp.msu.ru
DESCRIPTION:Speakers: Vyacheslav Dyubkov (NRNU MEPhI\, NRC KI)\nFor more t
 han 40 years synchrotron-based x-ray sources as well as free-electron lase
 rs based on linear accelerators have been widely used in materials science
 \, spectroscopy\, crystallography\, research of fast processes\, medicine\
 , molecular biology and biochemistry\, medicine\, and other applied and sc
 ientific tasks. Nowadays state-of-art technologies make it possible to des
 ign and develop specialized synchrotron that is especially aimed to genera
 te SR by means of insertion devises\, such as ondulators or wigglers. Such
  specialized circular electron accelerators have been called SR sources of
  the 4th generation. Currently\, there are already several operating [1-3]
  and a number of such specialized SR sources are under design [4-6]. A num
 ber of 3rd generation light sources are under modernization up to 4th gene
 ration nowdaus. In order to advance the development of the research infras
 tructure of the Russian Federation\, by Decree of the President of the Rus
 sian Federation No. 356 of 25.06.2019\, a storage synchrotron (the 4th gen
 eration SR source) with an energy of 6 GeV and an equilibrium value of the
  horizontal emittance of the electron beam of no more than 70 pm∙rad (SY
 LA\, former USSR4) is being developed on the basis of NRC KI [7\,8]. This 
 paper presents the results of the development of the machine lattice as we
 ll as top-up linac injector.\n\n1. MAX IV Facility Detailed Design Report 
 / https://www.maxiv.lu.se/\n2. EBS Storage Ring Technical Report / https:/
 /www.esrf.eu/\n3. L. Liu\, R. T. Neuenschwander and A. R. D. Rodrigues\, S
 ynchrotron radiation sources in Brazil / .Phil. Trans. R. Soc. A 377: 2018
 0235 (2019).\n4. I. Agapov et al. PETRA IV: the ultralow-emittance source 
 project at DESY / J. Synchrotron Rad. (2018). 25\, 1277–1290.\n5. M. Bor
 land et al.\, Hybrid seven-bend-achromat lattice for the Advanced Photon S
 ource Upgrade / Proceedings of 2015 IPAC\, pp. 1776–1779.\n6. HEPS Xu G.
 \, Cui X.H.\, Duan Z.\, Guo. Y.Y. / Proceedings of International particle 
 accelerator conference. – Denmark\, 2017 – P. 2697 – 2699.\n7. S. Li
 uzzo et al.\, USSR HMBA Storage Ring Lattice Options // 12th IPAC\, May 20
 21\, Online\, Brazil. TUPAB049.\n8. L. Hoummi et al.\, Optimization and Er
 ror Studies for the USSR HMBA Lattice // 12th IPAC\, May 2021\, Online\, B
 razil. MOPAB224.\n\nhttps://events.sinp.msu.ru/event/8/contributions/524/
LOCATION: НИИЯФ\, ЮК\, Ц-05
URL:https://events.sinp.msu.ru/event/8/contributions/524/
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