SEPARATION OF SPIN AND CHARGE EXCITATIONS IN ONE-DIMENSIONAL SRCUO2

In this paper we expand on our earlier results [Phys. Rev. Lett. 77, 4 054 (1996)] on angle-resolved photoemission studies on one-dimensional SrCuO2 that reveal a behavior of a hole in Cu-O chain. The results ca nnot be explained within the conventional band theory, but require a p icture in which the spin and charge degrees of freedom for a single el ectron are separated. Instead of a single branch as predicted in band theory, E versus k relationship can be explained by underlying spinon and holon excitations scaled by hopping energy t and exchange energy J , respectively, indicating separated spin and charge excitations. This is an experimental observation of direct consequence of the spin-char ge separation driven by electron correlations that was first predicted thirty years ago. It also shows spinon and holons are real particles with definite energy-momentum dispersions.