Improving the precision of linear optics measurements based on turn-by-turn beam position monitor data after a pulsed excitation in lepton storage rings

Improving the precision of linear optics measurements based on turn-by-turn beam position monitor data after a pulsed excitation in lepton storage rings

Beam optics control is of critical importance for machine performance and protection. Nowadays, turn-by-turn (TbT) beam position monitor (BPM) data are increasingly exploited as they allow for fast and simultaneous measurement of various optics quantities. Nevertheless, so far the best documented un...

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Bibliographic Details
Published in:Physical review. Accelerators and beams Vol. 20; no. 8; p. 082802
Main Authors: Malina, L., Coello de Portugal, J., Persson, T., Skowroński, P. K., Tomás, R., Franchi, A., Liuzzo, S.
Format: Journal Article
Language:English
Published: College Park American Physical Society 01-08-2017
Subjects:
Amplitudes
Excitation
Fourier transforms
Leptons
Position measurement
Online Access:Get full text
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Summary:Beam optics control is of critical importance for machine performance and protection. Nowadays, turn-by-turn (TbT) beam position monitor (BPM) data are increasingly exploited as they allow for fast and simultaneous measurement of various optics quantities. Nevertheless, so far the best documented uncertainty of measured β -functions is of about 10‰ rms. In this paper we compare the β -functions of the ESRF storage ring measured from two different TbT techniques—the N-BPM and the Amplitude methods—with the ones inferred from a measurement of the orbit response matrix (ORM). We show how to improve the precision of TbT techniques by refining the Fourier transform of TbT data with properly chosen excitation amplitude. The precision of the N-BPM method is further improved by refining the phase advance measurement. This represents a step forward compared to standard TbT measurements. First experimental results showing the precision of β -functions pushed down to 4‰ both in TbT and ORM techniques are reported and commented.
ISSN:2469-9888
2469-9888
DOI:10.1103/PhysRevAccelBeams.20.082802