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Novel approach to design of the compact proton synchrotron magnetic lattice. / Vostriko, V. A.; Kamaev, S. E.; Pupkov, Yu A.

RuPAC 2018 - 26th Russian Particle Accelerator Conference. INSPIRE, 2018. p. 185-187 (RuPAC 2018 - 26th Russian Particle Accelerator Conference).

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Harvard

Vostriko, VA, Kamaev, SE & Pupkov, YA 2018, Novel approach to design of the compact proton synchrotron magnetic lattice. in RuPAC 2018 - 26th Russian Particle Accelerator Conference. RuPAC 2018 - 26th Russian Particle Accelerator Conference, INSPIRE, pp. 185-187, 26th Russian Particle Accelerator Conference, RuPAC 2018, Protvino, Russian Federation, 01.10.2018.

APA

Vostriko, V. A., Kamaev, S. E., & Pupkov, Y. A. (2018). Novel approach to design of the compact proton synchrotron magnetic lattice. In RuPAC 2018 - 26th Russian Particle Accelerator Conference (pp. 185-187). (RuPAC 2018 - 26th Russian Particle Accelerator Conference). INSPIRE.

Vancouver

Vostriko VA, Kamaev SE, Pupkov YA. Novel approach to design of the compact proton synchrotron magnetic lattice. In RuPAC 2018 - 26th Russian Particle Accelerator Conference. INSPIRE. 2018. p. 185-187. (RuPAC 2018 - 26th Russian Particle Accelerator Conference).

Author

Vostriko, V. A. ; Kamaev, S. E. ; Pupkov, Yu A. / Novel approach to design of the compact proton synchrotron magnetic lattice. RuPAC 2018 - 26th Russian Particle Accelerator Conference. INSPIRE, 2018. pp. 185-187 (RuPAC 2018 - 26th Russian Particle Accelerator Conference).

BibTeX

@inproceedings{5f0562ee2aa74a9db22e5ec0533b5593,
title = "Novel approach to design of the compact proton synchrotron magnetic lattice",
abstract = "A compact proton synchrotron for cancer therapy has been developed. The proposed magnetic lattice includes short dipole magnets with opposite direction of the field. The lattice optical functions are close to the usual for weak-focusing synchrotrons. At the same time, it allows achieve value of momentum compaction factor less than unity, and thereby avoid intensity limitations due to longitudinal instabilities. Multiturn injection and resonance extraction description finalizes the presented design of compact proton synchrotron.",
author = "Vostriko, {V. A.} and Kamaev, {S. E.} and Pupkov, {Yu A.}",
note = "Publisher Copyright: {\textcopyright} Copyright 2018 CC BY 3.0 and by the respective authors.; 26th Russian Particle Accelerator Conference, RuPAC 2018 ; Conference date: 01-10-2018 Through 05-10-2018",
year = "2018",
language = "English",
series = "RuPAC 2018 - 26th Russian Particle Accelerator Conference",
publisher = "INSPIRE",
pages = "185--187",
booktitle = "RuPAC 2018 - 26th Russian Particle Accelerator Conference",

}

RIS

TY - GEN

T1 - Novel approach to design of the compact proton synchrotron magnetic lattice

AU - Vostriko, V. A.

AU - Kamaev, S. E.

AU - Pupkov, Yu A.

N1 - Publisher Copyright: © Copyright 2018 CC BY 3.0 and by the respective authors.

PY - 2018

Y1 - 2018

N2 - A compact proton synchrotron for cancer therapy has been developed. The proposed magnetic lattice includes short dipole magnets with opposite direction of the field. The lattice optical functions are close to the usual for weak-focusing synchrotrons. At the same time, it allows achieve value of momentum compaction factor less than unity, and thereby avoid intensity limitations due to longitudinal instabilities. Multiturn injection and resonance extraction description finalizes the presented design of compact proton synchrotron.

AB - A compact proton synchrotron for cancer therapy has been developed. The proposed magnetic lattice includes short dipole magnets with opposite direction of the field. The lattice optical functions are close to the usual for weak-focusing synchrotrons. At the same time, it allows achieve value of momentum compaction factor less than unity, and thereby avoid intensity limitations due to longitudinal instabilities. Multiturn injection and resonance extraction description finalizes the presented design of compact proton synchrotron.

UR - http://www.scopus.com/inward/record.url?scp=85087428863&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:85087428863

T3 - RuPAC 2018 - 26th Russian Particle Accelerator Conference

SP - 185

EP - 187

BT - RuPAC 2018 - 26th Russian Particle Accelerator Conference

PB - INSPIRE

T2 - 26th Russian Particle Accelerator Conference, RuPAC 2018

Y2 - 1 October 2018 through 5 October 2018

ER -

ID: 41013065