Abstract
AbstractFull-potential linearized-augmented-plane-wave (FP-LAPW) calculations for δ-Pu films up to seven layers at the ground antiferromagnetic state including spin-orbit coupling effects reveal that surface energy rapidly converges and the semi-infinite surface energy is predicted to be 1.18, 1.21, and 1.42 J/m2 for δ-Pu (111), (001), and (110) films, respectively. Density of states show that the 5f electrons of the three surfaces tend to be localized with a sequence of (111)→(001)→(110). It is also predicted that the work function of δ-Pu (110) films exhibits a quantum size effect up to seven layers, while the work functions of δ-Pu (001) and (111) films show some oscillations when the number of layers is less than five, while it becomes relatively stable when the number of layers is greater than five. In addition, the work functions are predicted to be 3.41, 3.11, and 2.99 eV for δ-Pu (111), (001), and (110) films at the ground state, respectively. Comparisons with available experimental and theoretical results in the literature show good agreement.
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