Commissioning and first-year operational results of the MAX IV 3 GeV ring

Tavares, Pedro F.; Al-Dmour, Eshraq; Andersson, Åke; Cullinan, Francis; Jensen, Brian N.; Olsson, David; Olsson, David K.; Sjöström, Magnus; Tarawneh, Hamed; Thorin, Sara; Vorozhtsov, Alexey

Commissioning and first-year operational results of the MAX IV 3 GeV ring

Mark

Tavares, Pedro F. ^LU ; Al-Dmour, Eshraq ^LU ; Andersson, Åke ^LU ; Cullinan, Francis ^LU ; Jensen, Brian N. ^LU ; Olsson, David ^LU ; Olsson, David K. ^LU ; Sjöström, Magnus ^LU ; Tarawneh, Hamed ^LU and Thorin, Sara ^LU , et al. (2018) In Journal of Synchrotron Radiation 25(5). p.1291-1316

Abstract: The MAX IV 3 GeV electron storage ring in Lund, Sweden, is the first of a new generation of light sources to make use of the multibend-achromat lattice (MBA) to achieve ultralow emitance and hence ultrahigh brightness and transverse coherence. The conceptual basis of the MAX IV 3 GeV ring project combines a robust lattice design with a number of innovative engineering choices: compact, multifunctional magnet blocks, narrow low-conductance NEG-coated copper vacuum chambers and a 100 MHz radio-frequency system with passively operated third-harmonic cavities for bunch lengthening. In this paper, commissioning and first-year operational results of the MAX IV 3 GeV ring are presented, highlighting those aspects that are believed to be most... (More); The MAX IV 3 GeV electron storage ring in Lund, Sweden, is the first of a new generation of light sources to make use of the multibend-achromat lattice (MBA) to achieve ultralow emitance and hence ultrahigh brightness and transverse coherence. The conceptual basis of the MAX IV 3 GeV ring project combines a robust lattice design with a number of innovative engineering choices: compact, multifunctional magnet blocks, narrow low-conductance NEG-coated copper vacuum chambers and a 100 MHz radio-frequency system with passively operated third-harmonic cavities for bunch lengthening. In this paper, commissioning and first-year operational results of the MAX IV 3 GeV ring are presented, highlighting those aspects that are believed to be most relevant for future MBA-based storage rings. The commissioning experience of the MAX IV 3 GeV ring offers in this way an opportunity for validation of concepts that are likely to be essential ingredients of future diffraction-limited light sources.
(Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/06f556ed-e64d-46ad-be3c-beeb08a29037

author

Tavares, Pedro F. ^LU ; Al-Dmour, Eshraq ^LU ; Andersson, Åke ^LU ; Cullinan, Francis ^LU ; Jensen, Brian N. ^LU ; Olsson, David ^LU ; Olsson, David K. ^LU ; Sjöström, Magnus ^LU ; Tarawneh, Hamed ^LU and Thorin, Sara ^LU , et al. (More)

Tavares, Pedro F. ^LU ; Al-Dmour, Eshraq ^LU ; Andersson, Åke ^LU ; Cullinan, Francis ^LU ; Jensen, Brian N. ^LU ; Olsson, David ^LU ; Olsson, David K. ^LU ; Sjöström, Magnus ^LU ; Tarawneh, Hamed ^LU ; Thorin, Sara ^LU and Vorozhtsov, Alexey ^LU (Less)

organization

MAX IV Laboratory

publishing date

2018

type

Contribution to journal

publication status

published

subject

Accelerator Physics and Instrumentation

keywords

MAX IV, multibend achromat, storage ring, synchrotron light source

in

Journal of Synchrotron Radiation

volume

25

issue

5

pages

26 pages

publisher

International Union of Crystallography

external identifiers

pmid:30179168
scopus:85053010848

ISSN

0909-0495

DOI

10.1107/S1600577518008111

language

English

LU publication?

yes

id

06f556ed-e64d-46ad-be3c-beeb08a29037

date added to LUP

2018-10-12 09:17:00

date last changed

2024-04-30 15:34:35

@article{06f556ed-e64d-46ad-be3c-beeb08a29037,
  abstract     = {{<p>The MAX IV 3 GeV electron storage ring in Lund, Sweden, is the first of a new generation of light sources to make use of the multibend-achromat lattice (MBA) to achieve ultralow emitance and hence ultrahigh brightness and transverse coherence. The conceptual basis of the MAX IV 3 GeV ring project combines a robust lattice design with a number of innovative engineering choices: compact, multifunctional magnet blocks, narrow low-conductance NEG-coated copper vacuum chambers and a 100 MHz radio-frequency system with passively operated third-harmonic cavities for bunch lengthening. In this paper, commissioning and first-year operational results of the MAX IV 3 GeV ring are presented, highlighting those aspects that are believed to be most relevant for future MBA-based storage rings. The commissioning experience of the MAX IV 3 GeV ring offers in this way an opportunity for validation of concepts that are likely to be essential ingredients of future diffraction-limited light sources.</p>}},
  author       = {{Tavares, Pedro F. and Al-Dmour, Eshraq and Andersson, Åke and Cullinan, Francis and Jensen, Brian N. and Olsson, David and Olsson, David K. and Sjöström, Magnus and Tarawneh, Hamed and Thorin, Sara and Vorozhtsov, Alexey}},
  issn         = {{0909-0495}},
  keywords     = {{MAX IV; multibend achromat; storage ring; synchrotron light source}},
  language     = {{eng}},
  number       = {{5}},
  pages        = {{1291--1316}},
  publisher    = {{International Union of Crystallography}},
  series       = {{Journal of Synchrotron Radiation}},
  title        = {{Commissioning and first-year operational results of the MAX IV 3 GeV ring}},
  url          = {{http://dx.doi.org/10.1107/S1600577518008111}},
  doi          = {{10.1107/S1600577518008111}},
  volume       = {{25}},
  year         = {{2018}},
}

Lund University Publications

LUND UNIVERSITY LIBRARIES

Commissioning and first-year operational results of the MAX IV 3 GeV ring