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Paper detail

Exploring Metastable States in UO$_2$ using Hybrid Functionals and Dynamical Mean Field Theory

A detailed exploration of the $f$-atomic orbital occupancy space for UO$_2$ is performed using a first principles approach based on density functional theory (DFT), employing a full hybrid functional within a systematic basis set. Specifically, the PBE0 functional is combined with an occupancy biasing scheme implemented in a wavelet-based algorithm which is adapted to large supercells. The results are compared with previous DFT+U calculations reported in the literature, while dynamical mean field theory (DMFT) is also performed to provide a further base for comparison. This work shows that the computational complexity of the energy landscape of a correlated $f$-electron oxide is much richer than has previously been demonstrated. The resulting calculations provide evidence of the existence of multiple previously unexplored metastable electronic states of UO$_2$, including those with energies which are lower than previously reported ground states.

preprint2021arXivOpen access
Laura E. RatcliffLuigi GenoveseHyowon ParkPeter B. LittlewoodAlejandro Lopez-Bezanilla
cond-mat.str-elcond-mat.mtrl-sci
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Laura E. RatcliffLuigi GenoveseHyowon ParkPeter B. LittlewoodAlejandro Lopez-Bezanilla

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