Monazite-type SrCrO4 under compression

Gleissner, J, Errandonea, D, Segura, A, Pellicer-Porres, J, Hakeem, Malik, Proctor, JE, Raju, SV, Kumar, RS, Rodriquez-Hernandez, P, Munoz, A, Lopez-Moreno, S and Bettinelli, M 2016, 'Monazite-type SrCrO4 under compression' , Physical Review B (PRB), 94 (134108) , pp. 1-13.

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Abstract

We report a high-pressure study of monoclinic monazite-type SrCrO4 up to 26 GPa. Therein we combined x-ray diffraction, Raman, and optical-absorption measurements with ab initio calculations, to find a pressure-induced structural phase transition of SrCrO4 near 8–9 GPa. Evidence of a second phase transition was observed at 10–13 GPa. The crystal structures of the high-pressure phases were assigned to the tetragonal scheelite-type and monoclinic AgMnO4-type structures. Both transitions produce drastic changes in the electronic band gap and phonon spectrum of SrCrO4. We determined the pressure evolution of the band gap for the low- and high-pressure phases as well as the frequencies and pressure dependencies of the Raman-active modes. In all three phases most Raman modes harden under compression, however the presence of low-frequency modes which gradually soften is also detected. In monazite-type SrCrO4, the band gap blueshifts under compression, but the transition to the scheelite phase causes an abrupt decrease of the band gap in SrCrO4. Calculations showed good agreement with experiments and were used to better understand the experimental results. From x-ray-diffraction studies and calculations we determined the pressure dependence of the unit-cell parameters of the different phases and their ambient-temperature equations of state. The results are compared with the high-pressure behavior of other monazites, in particular PbCrO4. A comparison of the high-pressure behavior of the electronic properties of SrCrO4 (SrWO4) and PbCrO4 (PbWO4) will also be made. Finally, the possible occurrence of a third structural phase transition is discussed.

Item Type: Article
Schools: Schools > School of Computing, Science and Engineering > Salford Innovation Research Centre (SIRC)
Journal or Publication Title: Physical Review B (PRB)
Publisher: American Physical Society
ISSN: 2469-9950
Related URLs:
Funders: Non funded research
Depositing User: JE Proctor
Date Deposited: 18 Nov 2016 09:14
Last Modified: 08 Aug 2017 17:07
URI: http://usir.salford.ac.uk/id/eprint/40798

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