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RIS citation export for TUPOB11: Quantification of Octupole Magnets at the University of Maryland Electron Ring

AU - Baumgartner, H.
AU - Beaudoin, B.
AU - Bernal, S.
AU - Haber, I.
AU - Koeth, T.W.
AU - Matthew, D.B.
AU - Ruisard, K.J.
AU - Teperman, M.R.
ED - Schaa, Volker RW
ED - Power, Maria
ED - Shiltsev, Vladimir
ED - White, Marion
TI - Quantification of Octupole Magnets at the University of Maryland Electron Ring
J2 - Proc. of NAPAC2016, Chicago, IL, USA, October 9-14, 2016
C1 - Chicago, IL, USA
T2 - North American Particle Accelerator Conference
T3 - 3
LA - english
AB - The intensity frontier is limited by the ability to propagate substantial amounts of beam current without resulting in particle scrapping and/or losses from resonant growth and halo formation. Modern accelerators are based on the theories developed in the 1950's that assume particle motion is bounded and subject to linear forces. Recent theoretical developments have demonstrated that a strongly nonlinear lattice can be used to stably transport an intense beam has resulted in a fundamental rethinking of the conventional wisdom. A lattice composed of strong nonlinear magnets is predicted by theory to damp resonances while maintaining dynamic aperture. Results of rotating coil measurements, magnetic field scans and simulations will be presented, quantifying the multi-pole moments and fringe fields in the 1st generation Printed Circuit Board (PCB) octupoles for UMER's nonlinear lattice experiments.
CP - Geneva, Switzerland
SP - 503
EP - 506
KW - ion
KW - octupole
KW - quadrupole
KW - multipole
KW - lattice
DA - 2017/01
PY - 2017
SN - 978-3-95450-180-9
DO - 10.18429/JACoW-NAPAC2016-TUPOB11
UR - https://jacow.org/napac2016/papers/tupob11.pdf
ER -