Electron-loss-to-continuum cusp in collisions of U$^{89+}$ with N$_{2}$ and Xe
physics.atom-ph
/ Authors
P. -M. Hillenbrand, K. N. Lyashchenko, S. Hagmann, O. Yu. Andreev, D. Banas, E. P. Benis, A. I. Bondarev, C. Brandau, E. De Filippo, O. Forstner
and 17 more authors
J. Glorius, R. E. Grisenti, A. Gumberidze, D. L. Guo, M. O. Herdrich, M. Lestinsky, Yu. A. Litvinov, E. V. Pagano, N. Petridis, M. S. Sanjari, D. Schury, U. Spillmann, S. Trotsenko, M. Vockert, A. B. Voitkiv, G. Weber, Th. Stöhlker
/ Abstract
We study the electron-loss-to-continuum (ELC) cusp experimentally and theoretically by comparing the ionization of U$^{89+}$ projectiles in collisions with N$_2$ and Xe targets, at a beam energy of 75.91 MeV/u. The coincidence measurement between the singly ionized projectile and the energy of the emitted electron is used to compare the shape of the ELC cusp at weak and strong perturbations. A significant energy shift for the centroid of the electron cusp is observed for the heavy target of Xe as compared to the light target of N$_2$. Our results provide a stringent test for fully relativistic calculations of double-differential cross sections performed in the first-order approximation and in the continuum-distorted-wave approach.