Subjects: Nuclear Science and Technology >> Radiation Physics and Technology submitted time 2024-04-30
Abstract: Transverse mode-coupling instability (TMCI) is a dangerous transverse single-bunch instability that can lead
to severe particle loss. The mechanism of TMCI can be explained by the coupling of transverse coherent
oscillation modes owing to the transverse short-range wakefield (i.e., the transverse broadband impedance).
Recent studies on future circular colliders, e.g., FCC-ee, showed that the threshold of TMCI decreased significantly
when longitudinal and transverse impedances were included. We performed computations for a circular
electron-positron collider (CEPC) and observed a similar phenomenon. Systematic studies on the influence of
longitudinal impedance on the TMCI threshold were conducted. We concluded that the imaginary part of the
longitudinal impedance, which caused a reduction in the incoherent synchrotron tune, was the primary reason
for the reduction in the TMCI threshold. Additionally, the real part of the longitudinal impedance assists in
increasing the TMCI threshold.