Challenges in Extracting Pseudo-Multipoles From Magnetic Measurements

Russenschuck, Stephan; Caiafa, Gianni; Fiscarelli, Lucio; Liebsch, Melvin; Petrone, Carlo; Rogacki, Piotr

doi:10.18429/JACoW-ICAP2018-SUPAG03

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RIS citation export for SUPAG03: Challenges in Extracting Pseudo-Multipoles From Magnetic Measurements

TY  - CONF
AU  - Russenschuck, S.
AU  - Caiafa, G.
AU  - Fiscarelli, L.
AU  - Liebsch, M.
AU  - Petrone, C.
AU  - Rogacki, P.
ED  - Schaa, Volker RW
ED  - Makino, Kyoko
ED  - Snopok, Pavel
ED  - Berz, Martin
TI  - Challenges in Extracting Pseudo-Multipoles From Magnetic Measurements
J2  - Proc. of ICAP2018, Key West, FL, USA, 20-24 October 2018
CY  - Key West, FL, USA
T2  - International Computational Accelerator Physics Conference
T3  - 13
LA  - english
AB  - Extracting the coefficients of Fourier-Bessel series, known as pseudo-multipoles or generalized gradients, from magnetic measurements of accelerator magnets involves technical and mathematical challenges. First, a novel design of a short, rotating-coil magnetometer is required that does not intercept any axial field component of the magnet. Moreover, displacing short magnetometers, step-by-step along the magnet axis, yields a convolution of the local multipole field errors and the sensitivity (test function) of the induction coil. The deconvolution must then content with the low signal-to-noise ratio of the measurands, which are integrated voltages corresponding to spatial flux distributions. Finally, the compensation schemes, as implemented on long coils used for measuring the integrated field harmonics, cannot be applied to short magnetometers. All this requires careful design of experiment to derive the optimal length of the induction coil, the step size of the scan, and the highest order of pseudo-multipoles in the field reconstruction. This paper presents the theory of the measurement method, the data acquisition and deconvolution, and the design and production of a saddle-shaped, rotating-coil magnetometer.
PB  - JACoW Publishing
CP  - Geneva, Switzerland
SP  - 87
EP  - 92
KW  - multipole
KW  - induction
KW  - dipole
KW  - experiment
KW  - quadrupole
DA  - 2019/01
PY  - 2019
SN  - 978-3-95450-200-4
DO  - DOI: 10.18429/JACoW-ICAP2018-SUPAG03
UR  - http://jacow.org/icap2018/papers/supag03.pdf
ER  -