We applied ab initio phonon analysis to layered titanium-oxypnictides, NaTiPnO (Pn = As and Sb), and found a clear contrast between the cases with lighter/heavier pnictogen in comparison with experiments. The result completely explains the experimental structure at low temperature, C2/m for Pn = As, within the conventional charge density wave, while there arise discrepancies when the pnictogen gets heavier. Our phonon calculation using the GGA-PBE functional predicts that a Cmce polymorph is more stable than the experimentally observed one (Cmcm) for Pn = Sb. On the basis of further quantitative analysis, we suggest the possibility that the GGA-PBE functional does not properly reproduce the electron correlation effects for Pn = Sb, and this could be the reason for the present discrepancy.
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Investigation into Structural Phase Transitions in Layered Titanium-Oxypnictides by a Computational Phonon Analysis.
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School of Information Science, JAIST , Asahidai 1-1, Nomi, Ishikawa 923-1292, Japan.
We applied ab initio phonon analysis to layered titanium-oxypnictides, NaTiPnO (Pn = As and Sb), and found a clear contrast between the cases with lighter/heavier pnictogen in comparison with experiments. The result completely explains the experimental structure at low temperature, C2/m for Pn = As, within the conventional charge density wave, while there arise discrepancies when the pnictogen gets heavier. Our phonon calculation using the GGA-PBE functional predicts that a Cmce polymorph is more stable than the experimentally observed one (Cmcm) for Pn = Sb.
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School of Information Science, JAIST, Asahidai 1-1, Nomi, Ishikawa 923-1292, Japan.
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