Band structures of CsCl-structured BaS and CaSe at high pressure: Implications for metallization pressures of the alkaline earth chalcogenides
| Autor: | Steven G. Louie, Michel Côté, Phillip Cervantes, Quentin Williams, Marvin L. Cohen, Michael Rohlfing |
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| Rok vydání: | 1998 |
| Předmět: | |
| Zdroj: | Physical Review B. 58:9793-9800 |
| ISSN: | 1095-3795 0163-1829 |
| DOI: | 10.1103/physrevb.58.9793 |
| Popis: | The indirect energy gaps of CsCl-structured BaS and CaSe are measured at high pressures using absorption spectroscopy to pressures of 41 and 53 GPa, respectively. Band-structure calculations using density-functional theory and quasiparticle corrections are also conducted on BaS and CaSe as a function of pressure. The measured indirect gaps of BaS and CaSe shift linearly with pressure with a slope, (dE{sub gap}/dP), of {minus}1.8(2){times}10{sup {minus}2} and {minus}1.5(3){times}10{sup {minus}2}thinspeV/GPa, respectively. These values are in reasonable agreement with the theoretical results of {minus}2.2{times}10{sup {minus}2}thinspeV/GPa for BaS and {minus}2.3{times}10{sup {minus}2}thinspeV/GPa for CaSe. Our calculations indicate that the energy gap in both compounds is indirect with the valence-band maxima at {bold M} and the conduction-band minima at {bold {Gamma}}. Based on a simple linear extrapolation of our data, we estimate the metallization pressures of CsCl-structured BaS and CaSe to be above 113 and 125 GPa, respectively. Our estimates of metallization pressures are compared with those of other alkaline earth monochalcogenides to determine the degree to which changes in the electronic structures of these compounds under pressure can be described using systematic trends based on ionic radii. {copyright} {ital 1998} {ital The American Physical Society} |
| Databáze: | OpenAIRE |
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