Energy systematics of single and double K -shell-vacancy production in titanium bombarded by chlorine ions

The energy systematics of single and double K-shell-vacancy production in titanium have been investigated near the limit of zero target thickness for incident chlorine ions over an energy range of 7\char21{}15 MeV/amu. Single and double K-shell-vacancy production cross sections have been measured for projectiles incident with zero, one, and two initial K-shell vacancies. Single and double K-shell-to-K-shell electron-transfer cross sections have been obtained indirectly using differencing procedures based on the projectile-charge-state dependence of single and double K-shell-vacancy production. The measured cross sections have been compared to theoretical models for direct ionization and inner-shell electron transfer. Together with previously reported data, these cross sections also have been used to investigate the relative importance of these mechanisms for K-shell-vacancy production in heavy-ion\char21{}atom collisions over a range of scaled velocities of 0.24\ensuremath{\le}${V}_{1}$/${V}_{2K}$\ensuremath{\le}1.29.