Circuit Model Analysis for High Charge in the APS Particle Accumulator Ring

Harkay, Katherine; Calvey, Joseph; Dooling, Jeffrey; Emery, Louis; Lindberg, Ryan; Wootton, Kent; Yao, Chihyuan

doi:10.18429/JACoW-NAPAC2019-MOPLM21

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RIS citation export for MOPLM21: Circuit Model Analysis for High Charge in the APS Particle Accumulator Ring

TY  - CONF
AU  - Harkay, K.C.
AU  - Calvey, J.R.
AU  - Dooling, J.C.
AU  - Emery, L.
AU  - Lindberg, R.R.
AU  - Wootton, K.P.
AU  - Yao, C.
ED  - Yamazaki, Yoshishige
ED  - Raubenheimer, Tor
ED  - McCausey, Amy
ED  - Schaa, Volker RW
TI  - Circuit Model Analysis for High Charge in the APS Particle Accumulator Ring
J2  - Proc. of NAPAC2019, Lansing, MI, USA, 01-06 September 2019
CY  - Lansing, MI, USA
T2  - North American Particle Accelerator Conference
T3  - 4
LA  - english
AB  - The Advanced Photon Source (APS) particle accumulator ring (PAR) was designed to accumulate linac pulses into a single bunch with a fundamental rf system, and longitudinally compress the beam with a harmonic rf system prior to injection into the booster. For APS Upgrade, the injectors will need to supply full-current bunch replacement with high single-bunch charge for swap-out in the new storage ring. Significant bunch lengthening, energy spread, and synchrotron sidebands are observed in PAR at high charge. Lower-charge dynamics are dominated by potential well distortion, while higher-charge dynamics appear to be dominated by microwave instability. Before a numerical impedance model was available, a simple circuit model was developed by fitting the measured bunch distributions to the Haissinski equation. Energy scaling was then used to predict the beam energy sufficient to raise the instability threshold to 18-20 nC. With the beam in a linear or nearly linear regime, higher harmonic radio frequency (rf) gap voltage can be used to reduce the bunch length at high charge and better match the booster acceptance.
PB  - JACoW Publishing
CP  - Geneva, Switzerland
SP  - 151
EP  - 154
KW  - impedance
KW  - injection
KW  - booster
KW  - synchrotron
KW  - photon
DA  - 2019/10
PY  - 2019
SN  - 2673-7000
SN  - 978-3-95450-223-3
DO  - doi:10.18429/JACoW-NAPAC2019-MOPLM21
UR  - http://jacow.org/napac2019/papers/moplm21.pdf
ER  -