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Paper detail

Electronic Structure and Spectra of CuO

We report the electronic structure of monoclinic CuO as obtained from first principles calculations utilizing density functional theory plus effective Coulomb interaction (DFT + U) method. In contrast to standard DFT calculations taking into account electronic correlations in DFT + U gave antiferromagnetic insulator with energy gap and magnetic moment values in good agreement with experimental data. The electronic states around the Fermi level are formed by partially filled Cu 3$d_{x^2-y^2}$ orbitals with significant admixture of O 2$p$ states. Theoretical spectra are calculated using DFT + U electronic structure method and their comparison with experimental photoemission and optical spectra show very good agreement.

preprint2014arXivOpen access
C. E. EkumaV. I. AnisimovJ. MorenoM. Jarrell
cond-mat.str-el
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C. E. EkumaV. I. AnisimovJ. MorenoM. Jarrell

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