Depolarizing 'beat' Resonances in the Brookhaven AGS

Depolarizing 'beat' Resonances in the Brookhaven AGS

While accelerating polarized protons in the Brookhaven AGS we found a variant of the standard imperfection and intrinsic depolarizing resonances which has some of the properties of both types. Imperfection resonances occur at Gγ = k, when the number of spin precessions per revolution, Gγ, equals a h...

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Bibliographic Details
Published in:IEEE transactions on nuclear science Vol. 32; no. 5; pp. 2635 - 2637
Main Authors: Terwilliger, K. M., Krisch, A. D., Courant, E. D., Ratner, L. G.
Format: Journal Article
Language:English
Published: IEEE 01-10-1985
Subjects:
Acceleration
Amplitude modulation
Frequency
Laboratories
Magnetic fields
Magnetic resonance
Particle beams
Polarization
Protons
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Summary:While accelerating polarized protons in the Brookhaven AGS we found a variant of the standard imperfection and intrinsic depolarizing resonances which has some of the properties of both types. Imperfection resonances occur at Gγ = k, when the number of spin precessions per revolution, Gγ, equals a harmonic of the depolarizing field, k. Intrinsic resonances occur at Gγ = nP±νZ, when the AGS gradient periodicities, nP, modulate free vertical betatron oscillations to create the sum and difference frequencies. The variant resonance is a beat between nP and an imperfection driven betatron oscillation of periodicity k'. These occur at Gγ = nP±k', and are strongest when the driven betatron oscillation is largest. The effect was most dramatic at the strong Gγ = 27 resonance. Since νZ = 8.8 for the AGS, and there is a major nP = 36 AGS periodicity, a strong beat resonance should exist at Gγ = 36-9 = 27. Applying a 27th harmonic correction directly was unsuccessful, but a 9th harmonic correction removed the depolarization.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.1985.4334005