Comparative Analysis for the Behavior of Beryllium and Magnesium Crystals at Ultrahigh Pressures

The article presents ab initio calculation results on the structural‐phase stability of beryllium and magnesium crystals under high and ultrahigh pressures (multiterapascal regime). Magnesium is shown to undergo a number of structural transformations which markedly reduce the crystal packing factor....

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Veröffentlicht in:	physica status solidi (b) 2024-08, Vol.261 (8), p.n/a
1. Verfasser:	Smirnov, Nikolai A.
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Sprache:	eng
Schlagworte:	ab initio calculations high pressures phase diagrams
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description	The article presents ab initio calculation results on the structural‐phase stability of beryllium and magnesium crystals under high and ultrahigh pressures (multiterapascal regime). Magnesium is shown to undergo a number of structural transformations which markedly reduce the crystal packing factor. As for beryllium, its high‐pressure body‐centered cubic phase remains stable even under ultrahigh pressures. Changes in the electronic structure of Be and Mg crystals under compression are analyzed and some interesting effects are revealed. Specifically, a narrow bandgap appears in the electronic structure of magnesium under pressures above 2.5 TPa. For the metals of interest, pressure‐temperature diagrams are constructed and compared with available experimental and theoretical results from other investigations. The article presents ab initio calculation results on the structural‐phase stability of beryllium and magnesium crystals under high pressures. Magnesium is shown to undergo a number of structural transformations which markedly reduce the crystal packing factor. As for beryllium, its high‐pressure body‐centered cubic phase remains stable even under ultrahigh pressures. Changes in the electronic structure of Be and Mg crystals under compression are analyzed and some interesting effects are revealed.
doi_str_mv	10.1002/pssb.202300551
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Magnesium is shown to undergo a number of structural transformations which markedly reduce the crystal packing factor. As for beryllium, its high‐pressure body‐centered cubic phase remains stable even under ultrahigh pressures. Changes in the electronic structure of Be and Mg crystals under compression are analyzed and some interesting effects are revealed. Specifically, a narrow bandgap appears in the electronic structure of magnesium under pressures above 2.5 TPa. For the metals of interest, pressure‐temperature diagrams are constructed and compared with available experimental and theoretical results from other investigations. The article presents ab initio calculation results on the structural‐phase stability of beryllium and magnesium crystals under high pressures. Magnesium is shown to undergo a number of structural transformations which markedly reduce the crystal packing factor. 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As for beryllium, its high‐pressure body‐centered cubic phase remains stable even under ultrahigh pressures. 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As for beryllium, its high‐pressure body‐centered cubic phase remains stable even under ultrahigh pressures. Changes in the electronic structure of Be and Mg crystals under compression are analyzed and some interesting effects are revealed.</abstract><doi>10.1002/pssb.202300551</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0002-0313-7606</orcidid></addata></record>
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title	Comparative Analysis for the Behavior of Beryllium and Magnesium Crystals at Ultrahigh Pressures
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