2007
DOI: 10.1103/physrevstab.10.074001
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Magnet strength measurement in circular accelerators from beam position monitor data

Abstract: Recent measurements of resonance terms suggested the extension of the existing technique to measure magnet strengths from turn-by-turn beam position monitor data. This article describes the algorithm to infer the magnet strength from the variation along the ring of the resonance terms and reports on the first measurement. Both the algorithm and the software written for the analysis of the data can be particularly useful in the commissioning period of an accelerator in order to find magnets with wrong strengths… Show more

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Cited by 10 publications
(25 citation statements)
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“…A last interesting figure to evaluate the quality of the TbT BPM data and of its harmonic analysis is represented by a cancellation condition that shall be satisfied by some measured CRDTs. According to the definitions of the normal sextupole terms of Table I it is straightforward to prove that F 0 = 2ℜ{F N S2 } − ℜ{F N S1 } + ℜ{F N S0 } ≡ 0 (7) anywhere in the ring: the closer F 0 is to zero, the more reliable is the harmonic analysis described here. Note that the measured F 0 along the ring depends only on: (i) the linear lattice model (β functions used to normalize the BPM TbT data); (ii) the BPM calibration factors, spatial and spectral resolution, electronic noise and the like; (iii) initial beam excitation, i.e.…”
Section: Rdt Resonance and Magnetic Termmentioning
confidence: 91%
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“…A last interesting figure to evaluate the quality of the TbT BPM data and of its harmonic analysis is represented by a cancellation condition that shall be satisfied by some measured CRDTs. According to the definitions of the normal sextupole terms of Table I it is straightforward to prove that F 0 = 2ℜ{F N S2 } − ℜ{F N S1 } + ℜ{F N S0 } ≡ 0 (7) anywhere in the ring: the closer F 0 is to zero, the more reliable is the harmonic analysis described here. Note that the measured F 0 along the ring depends only on: (i) the linear lattice model (β functions used to normalize the BPM TbT data); (ii) the BPM calibration factors, spatial and spectral resolution, electronic noise and the like; (iii) initial beam excitation, i.e.…”
Section: Rdt Resonance and Magnetic Termmentioning
confidence: 91%
“…By looking at Table IV of Ref. [7] and Fig. 24 it is clear that secondary spectral lines of the complex signal h r and excited by either coupling or sextupoles, become indistinguishable.…”
Section: Acknowledgmentsmentioning
confidence: 98%
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