Compression of Heavy Alkali Metals at Multi-Megabar Pressures
POSTER
Abstract
The light alkali metals are of particular interest to both experimental and theoretical investigations due to their exotic behaviour at extreme conditions, and relative atomic simplicity facilitating ab initio analysis using DFT and MD simulation. While considered simple elements at ambient conditions, well-described by the free-electron model, these metals become increasingly complex at extreme conditions;
incommensurate host-guest structures become favourable in K at 20 GPa and Rb at 16 GPa. These two elements are also predicted to mirror the transitions of Cs at increasing pressures, I41 / amd → Cmca → dhcp.
We present an exploration Rb at pressures up to 250 GPa, discussing the challenges involved in studying these highly reactive elements in diamond anvil cells. We further discuss the transition to dhcp phase, and comment on the bizarre compressive behaviour caused by the plethora of phase changes in these ‘simple’ metals.
incommensurate host-guest structures become favourable in K at 20 GPa and Rb at 16 GPa. These two elements are also predicted to mirror the transitions of Cs at increasing pressures, I41 / amd → Cmca → dhcp.
We present an exploration Rb at pressures up to 250 GPa, discussing the challenges involved in studying these highly reactive elements in diamond anvil cells. We further discuss the transition to dhcp phase, and comment on the bizarre compressive behaviour caused by the plethora of phase changes in these ‘simple’ metals.
Presenters
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Christian Storm
Univ of Edinburgh
Authors
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Christian Storm
Univ of Edinburgh
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Sarah Finnegan
Univ of Edinburgh
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Edward Pace
Univ of Edinburgh, Centre for Science at Extreme Conditions, University of Edinburgh, Edinburgh EH9 3FD, United Kingdom
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Michael Stevenson
Univ of Edinburgh
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James McHardy
Univ of Edinburgh
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Simon MacLeod
AWE
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Malcolm McMahon
Univ of Edinburgh, University of Edinburgh