CRYRING@ESR: present status and future research

Lestinsky, M.; Braeuning-Demian, A.; Danared, Håkan; Engstrom, M.; Enders, W.; Fedotova, S.; Franzke, B.; Heinz, A.; Herfurth, F.; Kallberg, A.; Kester, O.; Litvinov, Y.; Steck, M.; Reistad, D.; Simonsson, A.; Skeppstedt, Oe; Stoehlker, T.; Vorobjev, G.

CRYRING@ESR: present status and future research

Mark

Lestinsky, M. ; Braeuning-Demian, A. ; Danared, Håkan ^LU ; Engstrom, M. ; Enders, W. ; Fedotova, S. ; Franzke, B. ; Heinz, A. ; Herfurth, F. and Kallberg, A. , et al. (2015) In Physica Scripta T166.

Abstract: The former storage ring CRYRING has been shipped from the Manne Siegbahn Laboratory in Stockholm to Darmstadt as a Swedish in-kind contribution to FAIR. At its new location downstream of ESR all ion species presently accessible in ESR can be transferred to CRYRING, in which ions with rigidities between 1.44 and 0.054 Tm can be stored. The original Swedish layout has been modified by reconfiguring the sequence of straight sections and by slightly increasing the circumference to ESR/2. Ions can be injected from ESR or from an independent 300 keV/u RFQ test injector. The instrumentation of the ring includes an RF drift tube system for acceleration and deceleration (1 T s(-1), with a possibility for an upgrade to 7 T s(-1)), electron cooling,... (More); The former storage ring CRYRING has been shipped from the Manne Siegbahn Laboratory in Stockholm to Darmstadt as a Swedish in-kind contribution to FAIR. At its new location downstream of ESR all ion species presently accessible in ESR can be transferred to CRYRING, in which ions with rigidities between 1.44 and 0.054 Tm can be stored. The original Swedish layout has been modified by reconfiguring the sequence of straight sections and by slightly increasing the circumference to ESR/2. Ions can be injected from ESR or from an independent 300 keV/u RFQ test injector. The instrumentation of the ring includes an RF drift tube system for acceleration and deceleration (1 T s(-1), with a possibility for an upgrade to 7 T s(-1)), electron cooling, a free experimental section, and both fast and slow extraction of ions. We report on the present progress of this project, give a prospective timeline, and summarize the new research which will be enabled by this project. First beam for commissioning of the storage ring is expected for 2015, final bakeout to restore ultrahigh vacuum conditions in 2016 and ion beams injected through ESR in similar to 2017. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/8731704

author

Lestinsky, M. ; Braeuning-Demian, A. ; Danared, Håkan ^LU ; Engstrom, M. ; Enders, W. ; Fedotova, S. ; Franzke, B. ; Heinz, A. ; Herfurth, F. and Kallberg, A. , et al. (More)

Lestinsky, M. ; Braeuning-Demian, A. ; Danared, Håkan ^LU ; Engstrom, M. ; Enders, W. ; Fedotova, S. ; Franzke, B. ; Heinz, A. ; Herfurth, F. ; Kallberg, A. ; Kester, O. ; Litvinov, Y. ; Steck, M. ; Reistad, D. ; Simonsson, A. ; Skeppstedt, Oe ; Stoehlker, T. and Vorobjev, G. (Less)

organization

European Spallation Source ESS AB

publishing date

2015

type

Contribution to journal

publication status

published

subject

Atom and Molecular Physics and Optics

keywords

ion beam facilities, atomic physics, nuclear physics

in

Physica Scripta

volume

T166

article number

014075

publisher

IOP Publishing

external identifiers

wos:000368901600076
scopus:84977530295

ISSN

0031-8949

DOI

10.1088/0031-8949/2015/T166/014075

language

English

LU publication?

yes

id

49249281-1e19-4a54-a93c-d0b2038dfdc8 (old id 8731704)

date added to LUP

2016-04-01 10:37:48

date last changed

2022-03-19 22:23:31

@article{49249281-1e19-4a54-a93c-d0b2038dfdc8,
  abstract     = {{The former storage ring CRYRING has been shipped from the Manne Siegbahn Laboratory in Stockholm to Darmstadt as a Swedish in-kind contribution to FAIR. At its new location downstream of ESR all ion species presently accessible in ESR can be transferred to CRYRING, in which ions with rigidities between 1.44 and 0.054 Tm can be stored. The original Swedish layout has been modified by reconfiguring the sequence of straight sections and by slightly increasing the circumference to ESR/2. Ions can be injected from ESR or from an independent 300 keV/u RFQ test injector. The instrumentation of the ring includes an RF drift tube system for acceleration and deceleration (1 T s(-1), with a possibility for an upgrade to 7 T s(-1)), electron cooling, a free experimental section, and both fast and slow extraction of ions. We report on the present progress of this project, give a prospective timeline, and summarize the new research which will be enabled by this project. First beam for commissioning of the storage ring is expected for 2015, final bakeout to restore ultrahigh vacuum conditions in 2016 and ion beams injected through ESR in similar to 2017.}},
  author       = {{Lestinsky, M. and Braeuning-Demian, A. and Danared, Håkan and Engstrom, M. and Enders, W. and Fedotova, S. and Franzke, B. and Heinz, A. and Herfurth, F. and Kallberg, A. and Kester, O. and Litvinov, Y. and Steck, M. and Reistad, D. and Simonsson, A. and Skeppstedt, Oe and Stoehlker, T. and Vorobjev, G.}},
  issn         = {{0031-8949}},
  keywords     = {{ion beam facilities; atomic physics; nuclear physics}},
  language     = {{eng}},
  publisher    = {{IOP Publishing}},
  series       = {{Physica Scripta}},
  title        = {{CRYRING@ESR: present status and future research}},
  url          = {{http://dx.doi.org/10.1088/0031-8949/2015/T166/014075}},
  doi          = {{10.1088/0031-8949/2015/T166/014075}},
  volume       = {{T166}},
  year         = {{2015}},
}

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CRYRING@ESR: present status and future research