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

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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.

In: Journal of Synchrotron Radiation, Vol. 25, No. 5, 2018, p. 1291-1316.

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TY - JOUR

T1 - Commissioning and first-year operational results of the MAX IV 3 GeV ring

AU - Tavares, Pedro F.

AU - Al-Dmour, Eshraq

AU - Andersson, Åke

AU - Cullinan, Francis

AU - Jensen, Brian N.

AU - Olsson, David

AU - Olsson, David K.

AU - Sjöström, Magnus

AU - Tarawneh, Hamed

AU - Thorin, Sara

AU - Vorozhtsov, Alexey

PY - 2018

Y1 - 2018

N2 - 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.

AB - 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.

KW - MAX IV

KW - multibend achromat

KW - storage ring

KW - synchrotron light source

U2 - 10.1107/S1600577518008111

DO - 10.1107/S1600577518008111

M3 - Article

VL - 25

SP - 1291

EP - 1316

JO - Journal of Synchrotron Radiation

T2 - Journal of Synchrotron Radiation

JF - Journal of Synchrotron Radiation

SN - 1600-5775

IS - 5

ER -