Synchrotron oscillation effects on an rf-solenoid spin resonance

Medientyp: E-Artikel

Titel: Synchrotron oscillation effects on an rf-solenoid spin resonance

Beteiligte: Benati, P. [VerfasserIn]; Chiladze, D. [VerfasserIn]; Lehrach, A. [VerfasserIn]; Lenisa, P. [VerfasserIn]; Lorentz, B. [VerfasserIn]; Maier, R. [VerfasserIn]; Mchedlishvili, D. [VerfasserIn]; Morse, W. M. [VerfasserIn]; Öllers, D. [VerfasserIn]; Pesce, A. [VerfasserIn]; Polyanskiy, A. [VerfasserIn]; Prasuhn, D. [VerfasserIn]; Dietrich, J. [VerfasserIn]; Rathmann, F. [VerfasserIn]; Semertzidis, Y. K. [VerfasserIn]; Stephenson, E. J. [VerfasserIn]; Stockhorst, H. [VerfasserIn]; Ströher, H. [VerfasserIn]; Talman, R. [VerfasserIn]; Valdau, Yu. [VerfasserIn]; Weidemann, Ch. [VerfasserIn]; Wüstner, P. [VerfasserIn]; Gaisser, M. [VerfasserIn]; Gebel, R. [VerfasserIn]; [...]

Erschienen: Soc., 2012

Sprache: Englisch

DOI: https://doi.org/10.1103/PhysRevSTAB.15.124202

ISSN: 1098-4402

Schlagwörter: spin: resonance ; scintillation counter ; polarization: time dependence ; electric moment: measurement methods ; EDDA ; solenoid ; Juelich COSY PS ; beam: polarization ; synchrotron oscillation: effect ; beam profile ; carbon: target ; beam dynamics ; deuteron: beam

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Beschreibung: New measurements are reported for the time dependence of the vertical polarization of a 0.97 GeV/c deuteron beam circulating in a storage ring and perturbed by an rf solenoid. The storage ring is the cooler synchrotron (COSY) located at the Forschungszentrum Juelich. The beam polarization was measured continuously using a 1.5 cm thick carbon target located at the edge of the circulating deuteron beam and the scintillators of the EDDA detector. An rf solenoid mounted on the ring was used to generate fields at and near the frequency of the 1 - G spin resonance. Measurements were made of the vertical beam polarization as a function of time with the operation of the rf solenoid in either fixed or continuously variable frequency mode. Using rf-solenoid strengths as large as 2.66*10^5 revolutions/turn, slow oscillations ( 1 Hz) were observed in the vertical beam polarization. When the circulating beam was continuously electron cooled, these oscillations completely reversed the polarization and showed no sign of diminishing in amplitude. But for the uncooled beam, the oscillation amplitude was damped to nearly zero within a few seconds. A simple spin-tracking model without the details of the COSY ring lattice was successful in reproducing these oscillations and demonstrating the sensitivity of the damping to the magnitude of the synchrotron motion of the beam particles. The model demonstrates that the characteristic features of measurements made in the presence of large synchrotron oscillations are distinct from the features of such measurements when made off resonance. These data were collected in preparation for a study of the spin coherence time, a beam property that needs to become long to enable a search for an electric dipole moment using a storage ring.

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