Effect of rf cavity temperature variation on electron beams with rf voltage modulations

The correlation between the horizontal beam size versus the cavity temperature, observed at the Taiwan Light Source, is explained by the combined effects of (i) the cavity resonance frequency shift resulting from temperature change, (ii) the cavity voltage and synchronous phase angle change resultin...
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Autor*in:	P. J. Chou [verfasserIn] M. H. Wang [verfasserIn] S. Y. Lee [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2003

Übergeordnetes Werk:	In: Physical Review Special Topics. Accelerators and Beams - American Physical Society, 2003, 6(2003), 5, p 052803
Übergeordnetes Werk:	volume:6 ; year:2003 ; number:5, p 052803

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DOI / URN:	10.1103/PhysRevSTAB.6.052803

Katalog-ID:	DOAJ029416884

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520			\|a The correlation between the horizontal beam size versus the cavity temperature, observed at the Taiwan Light Source, is explained by the combined effects of (i) the cavity resonance frequency shift resulting from temperature change, (ii) the cavity voltage and synchronous phase angle change resulting from uncompensated beam loading in the low-level rf-feedback system, (iii) the synchrotron frequency shift due to the cavity voltage, and (iv) the rf cavity voltage modulation for alleviating the coupled-bunch instability. We find that the effect of higher-order parasitic-mode losses on the change of the horizontal beam size is small. This experimental method can be used to evaluate the intrinsic resolution of the low-level rf-feedback system.
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callnumber-first	Q - Science
author	P. J. Chou
spellingShingle	P. J. Chou misc QC770-798 misc Nuclear and particle physics. Atomic energy. Radioactivity Effect of rf cavity temperature variation on electron beams with rf voltage modulations
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topic_title	QC770-798 Effect of rf cavity temperature variation on electron beams with rf voltage modulations
topic	misc QC770-798 misc Nuclear and particle physics. Atomic energy. Radioactivity
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title	Effect of rf cavity temperature variation on electron beams with rf voltage modulations
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title_sort	effect of rf cavity temperature variation on electron beams with rf voltage modulations
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title_auth	Effect of rf cavity temperature variation on electron beams with rf voltage modulations
abstract	The correlation between the horizontal beam size versus the cavity temperature, observed at the Taiwan Light Source, is explained by the combined effects of (i) the cavity resonance frequency shift resulting from temperature change, (ii) the cavity voltage and synchronous phase angle change resulting from uncompensated beam loading in the low-level rf-feedback system, (iii) the synchrotron frequency shift due to the cavity voltage, and (iv) the rf cavity voltage modulation for alleviating the coupled-bunch instability. We find that the effect of higher-order parasitic-mode losses on the change of the horizontal beam size is small. This experimental method can be used to evaluate the intrinsic resolution of the low-level rf-feedback system.
abstractGer	The correlation between the horizontal beam size versus the cavity temperature, observed at the Taiwan Light Source, is explained by the combined effects of (i) the cavity resonance frequency shift resulting from temperature change, (ii) the cavity voltage and synchronous phase angle change resulting from uncompensated beam loading in the low-level rf-feedback system, (iii) the synchrotron frequency shift due to the cavity voltage, and (iv) the rf cavity voltage modulation for alleviating the coupled-bunch instability. We find that the effect of higher-order parasitic-mode losses on the change of the horizontal beam size is small. This experimental method can be used to evaluate the intrinsic resolution of the low-level rf-feedback system.
abstract_unstemmed	The correlation between the horizontal beam size versus the cavity temperature, observed at the Taiwan Light Source, is explained by the combined effects of (i) the cavity resonance frequency shift resulting from temperature change, (ii) the cavity voltage and synchronous phase angle change resulting from uncompensated beam loading in the low-level rf-feedback system, (iii) the synchrotron frequency shift due to the cavity voltage, and (iv) the rf cavity voltage modulation for alleviating the coupled-bunch instability. We find that the effect of higher-order parasitic-mode losses on the change of the horizontal beam size is small. This experimental method can be used to evaluate the intrinsic resolution of the low-level rf-feedback system.
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title_short	Effect of rf cavity temperature variation on electron beams with rf voltage modulations
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Effect of rf cavity temperature variation on electron beams with rf voltage modulations

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