Full spectrum optical constant interface to the Materials Project
Kas, J. J. 1Vila, F. D. 1Pemmaraju, C. D. 2Prange, M. P. 3Persson, K. A. 4Yang, R. X. 4Rehr, J. J.1
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作者信息
1. Univ Washington
2. Stanford Inst Mat & Energies Sci
3. Pacif Northwest Natl Lab
4. Lawrence Berkeley Natl Lab
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Abstract
Optical constants characterize the interaction of materials with light and are important properties in material design. Here we present a Python-based Corvus workflow for simulations of full spectrum optical constants from the visible and ultraviolet to hard x-ray wavelengths based on the real-space Green's function code FEFF10 and structural data from the Materials Project (MP). The Corvus workflow manager and its associated tools provide an interface to FEFF10 and the MP database. The workflow parallelizes the FEFF computations of optical constants over all absorption edges for each material in the MP database specified by a unique MP-ID. The workflow tools determine the distribution of computational resources needed for that case. Similarly, the optical constants for selected sets of materials can be computed in a single-shot. To illustrate the approach, we present results for several elemental solids in the periodic table, as well as a sample compound, and compare our predictions with experimental results. In addition, we provide a database of calculated results for all elements for which there is a stable elemental solid at standard conditions available in the Materials Project database. As in x-ray absorption spectra, these results are interpreted in terms of an atomic-like background and fine-structure contributions.
NSTL
Elsevier