부산대학교 도서관

The behavior of K-V, waterbag, parabolic, conical and Gaussian distributions in periodic quadrupole channels is studied by particle simulations. It is found that all these different distributions exhibit the known K-V instabilities. But the action of the K-V type modes becomes more and more damped in the order of the types of distributions quoted above. This damping is so strong for the Gaussian distribution that the emittance growth factor after a large number of periods is considerably lower than in the case of an equivalent K-V distribution. In addition, the non K-V distributions experience in only one period of the channel a rapid initial emittance growth, which becomes very significant at high beam intensities. This growth is attributed to the homogenization of the space-charge density, resulting in a conversion of electric-field energy into transverse kinetic and potential energy. Two simple analytical formulae are derived to estimate the upper and lower boundary values for this effect and are compared with the results obtained from particle simulations.
Comment: 20 pages, 10 figures