Relaxation of Excitonic Molecules Generated by the Giant Two-Photon Laser Excitation in CuCl

Abstract

Forward Raman scattering of excitonic molecule in CuCl has been studied at the giant two-photon excitation with using laser light having a wave vector K 0 but three different half band-widths, 0.2, 1.4 and 2.5 meV. In cases of laser excitation with broader half band-widths, the Raman and luminescence processes coexist and give emission lines called (LEP) R and (LEP) B , respectively. Both lines show the similar dependence of energy change upon the scattering angle. The (LEP) R and (LEP) B lines show red and blue shift, respectively, with the increase of laser excitation intensity. The excitonic molecule-state generated at K =2 K 0 is responsible for the (LEP) R line, while the (LEP) B line is considered to arise from a state having a certain K value smaller than 2 K 0 . Excitonic molecules generated coherently by the giant two-photon excitation are assumed to relax towards K =0 with keeping their individual momentum at almost the same value.