Dhal S.Chatterjee S.Samarin S.Williams J.F.Giebels F.Gollisch H.Feder R.2025-02-1720151http://dx.doi.org/10.1080/10420150.2015.1010168https://idr.iitbbs.ac.in/handle/2008/901The energy and azimuthal angle dependencies of the asymmetry of spin-polarized low-energy electrons ((00) beam) elastically scattered from a W(110) surface, have been studied before and after irradiated with slow Ar+ ions with energies of 200 eV, 500 eV and 1 keV at a fluence of 5 � 1015 ions/cm2. The energy dependence of the scattered electron asymmetries and intensities (for a fixed azimuthal angle of 55�, which is determined by the angle between the normal to the scattering plane and the [] direction in the surface of the W(110) crystal) and the azimuthal angle dependence of the asymmetry for two different incident electron energies of 14 eV and 23 eV showed a significant change after irradiation. The low-energy ion irradiation influenced the spin-polarized electron scattering more than the higher energy ions. The reason for the change of spin-dependent electron scattering is a quenching of coherent elastic multiple scattering, mainly due to lattice defects induced by implanted ions. Thus, these modifications demonstrate a technological way to construct spin-active interface with required properties. The agreement between experimental results and theoretical ones with and without multiple scattering provides a consistent explanation of the observations. � 2015 Taylor & Francis.enelectron scattering from surfaceion-surface interactionspin-polarized low-energy electron spectroscopytungstenArticle