Abstract
With HERA as a model, the collective (coherent) beam–beam instability in the case of weak–strong or very unsymmetrical beam–beam interactions was studied with a self-consistent beam–beam simulation by using the particle-in-cell method. It was found that when the beam–beam parameter of the weak lepton beam exceeds a threshold that corresponds to an overlap of the weak beam with low-order single-particle beam–beam resonances, the onset of the coherent beam–beam instability results in a significant emittance growth of the strong proton beam. After the onset of the coherent beam–beam instability, both the beams could develop a spontaneous coherent oscillation and the quasi-equilibrium distribution of the lepton beam deviates from a Gaussian distribution with a formation of a beam halo. The collective instability of weak–strong beam–beam interactions has been confirmed in a beam experiment on HERA. The phenomena observed in the experiment qualitatively agree with the numerical prediction.
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