Enhanced spin polarization of conduction electrons in Ni explained by comparison with Cu
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Abstract
The spin-split Fermi-level crossings of the conduction band in Ni are mapped out by high-resolution photoemission and compared to the equivalent crossing in Cu. The area of the quasiparticle peak decreases rapidly below E-F in Ni, but not in Cu. Majority spins have larger spectral weight at E-F than minority spins, thereby enhancing the spin polarization beyond that expected from the density-of-states. A large part of the effect can be traced to a rapid variation of the matrix element with k at the point where the s,p band begins to hybridize with the d(z)(2) state. However, it is quite possible that che intensity drop in Ni is reinforced by a transfer of spectral weight from single-particle to many-electron excitations. The results suggest that the matrix element should he considered for explaining the enhanced spin polarization observed for Ni in spin-polarized tunneling.