Standard

Cryogenic system and temperature control of superconducting wigglers with indirect cooling. / Bragin, A. V.; Khruschev, S. V.; Mezentsev, N. A. et al.

14th CRYOGENICS 2017 IIR International Conference, CRYOGENICS 2017 - Proceedings. Vol. 2017-May International Institute of Refrigeration, 2017. p. 400-405 (Refrigeration Science and Technology).

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

Harvard

Bragin, AV, Khruschev, SV, Mezentsev, NA, Lev, V, Shkaruba, VA, Tsukanov, VM, Syrovatin, VM, Tarasenko, OA, Volkov, AA & Zolotarev, KV 2017, Cryogenic system and temperature control of superconducting wigglers with indirect cooling. in 14th CRYOGENICS 2017 IIR International Conference, CRYOGENICS 2017 - Proceedings. vol. 2017-May, Refrigeration Science and Technology, International Institute of Refrigeration, pp. 400-405, 14th CRYOGENICS IIR International Conference, CRYOGENICS 2017, Dresden, Germany, 15.05.2017. https://doi.org/10.18462/iir.cryo.2017.0004

APA

Bragin, A. V., Khruschev, S. V., Mezentsev, N. A., Lev, V., Shkaruba, V. A., Tsukanov, V. M., Syrovatin, V. M., Tarasenko, O. A., Volkov, A. A., & Zolotarev, K. V. (2017). Cryogenic system and temperature control of superconducting wigglers with indirect cooling. In 14th CRYOGENICS 2017 IIR International Conference, CRYOGENICS 2017 - Proceedings (Vol. 2017-May, pp. 400-405). (Refrigeration Science and Technology). International Institute of Refrigeration. https://doi.org/10.18462/iir.cryo.2017.0004

Vancouver

Bragin AV, Khruschev SV, Mezentsev NA, Lev V, Shkaruba VA, Tsukanov VM et al. Cryogenic system and temperature control of superconducting wigglers with indirect cooling. In 14th CRYOGENICS 2017 IIR International Conference, CRYOGENICS 2017 - Proceedings. Vol. 2017-May. International Institute of Refrigeration. 2017. p. 400-405. (Refrigeration Science and Technology). doi: 10.18462/iir.cryo.2017.0004

Author

Bragin, A. V. ; Khruschev, S. V. ; Mezentsev, N. A. et al. / Cryogenic system and temperature control of superconducting wigglers with indirect cooling. 14th CRYOGENICS 2017 IIR International Conference, CRYOGENICS 2017 - Proceedings. Vol. 2017-May International Institute of Refrigeration, 2017. pp. 400-405 (Refrigeration Science and Technology).

BibTeX

@inproceedings{eadc1cd98ad44d16889e5798818acbc4,
title = "Cryogenic system and temperature control of superconducting wigglers with indirect cooling",
abstract = "Superconducting multipole magnets (wigglers, undulators) are a powerful tool for creating powerful sources of a synchrotron radiation with high brightness. Such devices operating in conditions of restricted access, must have high reliability in continuous operation for a long time. The cryogenic system should have continuous temperature control of the main parts of a cryostat and a magnet to keep reliability the system. Bath cryostats with magnets in liquid helium with use of cryocoolers are sufficiently well developed and have high reliability. The report presents the design of a cryostat with use of cryocoolers, which provides for indirect cooling of a magnet without direct contact with liquid helium, and the magnet is located in the insulating vacuum. Primary cooling is done using heat tubes filled with nitrogen. Maintaining low temperatures of the magnet is provided by a heat tube filled with helium in a siphon mode. Prototype of such a cryostat has demonstrated high reliability and efficiency in the APS (Advanced Photon Source, USA) superconducting undulator and superconducting wiggler ANKA-CLIC (Germany).",
keywords = "Cryocooler, Cryostat, Heat tube, Superconducting multipole magnet, Undulator, Wiggler, undulator, wiggler, cryocooler, cryostat, heat tube",
author = "Bragin, {A. V.} and Khruschev, {S. V.} and Mezentsev, {N. A.} and V. Lev and Shkaruba, {V. A.} and Tsukanov, {V. M.} and Syrovatin, {V. M.} and Tarasenko, {O. A.} and Volkov, {A. A.} and Zolotarev, {K. V.}",
year = "2017",
month = jan,
day = "1",
doi = "10.18462/iir.cryo.2017.0004",
language = "English",
volume = "2017-May",
series = "Refrigeration Science and Technology",
publisher = "International Institute of Refrigeration",
pages = "400--405",
booktitle = "14th CRYOGENICS 2017 IIR International Conference, CRYOGENICS 2017 - Proceedings",
note = "14th CRYOGENICS IIR International Conference, CRYOGENICS 2017 ; Conference date: 15-05-2017 Through 19-05-2017",

}

RIS

TY - GEN

T1 - Cryogenic system and temperature control of superconducting wigglers with indirect cooling

AU - Bragin, A. V.

AU - Khruschev, S. V.

AU - Mezentsev, N. A.

AU - Lev, V.

AU - Shkaruba, V. A.

AU - Tsukanov, V. M.

AU - Syrovatin, V. M.

AU - Tarasenko, O. A.

AU - Volkov, A. A.

AU - Zolotarev, K. V.

PY - 2017/1/1

Y1 - 2017/1/1

N2 - Superconducting multipole magnets (wigglers, undulators) are a powerful tool for creating powerful sources of a synchrotron radiation with high brightness. Such devices operating in conditions of restricted access, must have high reliability in continuous operation for a long time. The cryogenic system should have continuous temperature control of the main parts of a cryostat and a magnet to keep reliability the system. Bath cryostats with magnets in liquid helium with use of cryocoolers are sufficiently well developed and have high reliability. The report presents the design of a cryostat with use of cryocoolers, which provides for indirect cooling of a magnet without direct contact with liquid helium, and the magnet is located in the insulating vacuum. Primary cooling is done using heat tubes filled with nitrogen. Maintaining low temperatures of the magnet is provided by a heat tube filled with helium in a siphon mode. Prototype of such a cryostat has demonstrated high reliability and efficiency in the APS (Advanced Photon Source, USA) superconducting undulator and superconducting wiggler ANKA-CLIC (Germany).

AB - Superconducting multipole magnets (wigglers, undulators) are a powerful tool for creating powerful sources of a synchrotron radiation with high brightness. Such devices operating in conditions of restricted access, must have high reliability in continuous operation for a long time. The cryogenic system should have continuous temperature control of the main parts of a cryostat and a magnet to keep reliability the system. Bath cryostats with magnets in liquid helium with use of cryocoolers are sufficiently well developed and have high reliability. The report presents the design of a cryostat with use of cryocoolers, which provides for indirect cooling of a magnet without direct contact with liquid helium, and the magnet is located in the insulating vacuum. Primary cooling is done using heat tubes filled with nitrogen. Maintaining low temperatures of the magnet is provided by a heat tube filled with helium in a siphon mode. Prototype of such a cryostat has demonstrated high reliability and efficiency in the APS (Advanced Photon Source, USA) superconducting undulator and superconducting wiggler ANKA-CLIC (Germany).

KW - Cryocooler

KW - Cryostat

KW - Heat tube

KW - Superconducting multipole magnet

KW - Undulator

KW - Wiggler

KW - undulator

KW - wiggler

KW - cryocooler

KW - cryostat

KW - heat tube

UR - http://www.scopus.com/inward/record.url?scp=85046254944&partnerID=8YFLogxK

U2 - 10.18462/iir.cryo.2017.0004

DO - 10.18462/iir.cryo.2017.0004

M3 - Conference contribution

AN - SCOPUS:85046254944

VL - 2017-May

T3 - Refrigeration Science and Technology

SP - 400

EP - 405

BT - 14th CRYOGENICS 2017 IIR International Conference, CRYOGENICS 2017 - Proceedings

PB - International Institute of Refrigeration

T2 - 14th CRYOGENICS IIR International Conference, CRYOGENICS 2017

Y2 - 15 May 2017 through 19 May 2017

ER -

ID: 13595533