论文信息 - Impedance measurements with strongly cooled beams at LEAR

Impedance measurements with strongly cooled beams at LEAR

At the CERN Low Energy Antiproton Ring (LEAR), high-density beams are obtained with electron and stochastic cooling. The authors have tried to determine the characteristics of the beam and its environment in a regime where the cooling force is present and where the impedance is space-charge-dominated. Methods used include beam-transfer function (BTF) measurements and Schottky scans. It is shown that, when the beam is strongly cooled, Landau damping is lost. A powerful active feedback is necessary to recover beam stability and increase the possible circulating current. It is noted that transverse BTFs are a convenient tool for adjusting and monitoring the action of the damper. By a combination of longitudinal BTF and Schottky measurements, the momentum distribution of very cold beams can be determined despite the strong signal distortion, and the beam coupling impedance can be estimated.<<ETX>>

[1] J. Hemery,et al. A Procedure for Obtaining Transverse Wall Impedance and Working Line from Transfer Function Measurements , 1980 .

[2] G. Guignard,et al. Information from Beam Response to Longitudinal and Transverse Excitation , 1979, IEEE Transactions on Nuclear Science.

[3] A. Sessler,et al. THE USE OF RF-KNOCKOUT FOR DETERMINATION OF THE CHARACTERISTICS OF THE TRANSVERSE COHERENT INSTABILITY OF AN INTENSE BEAM , 1971 .

[4] V. Vaccaro,et al. DISPERSION RELATIONS AND STABILITY OF COASTING PARTICLE BEAMS , 1970 .

[5] L. Laslett,et al. TRANSVERSE RESISTIVE INSTABILITIES OF INTENSE COASTING BEAMS IN PARTICLE ACCELERATORS , 1965 .