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Auteurs principaux: Racioppi, Stefano, Saffarian-Deemyad, Iren, Holle, William, Belli, Francesco, Ferry, Richard, Kenney-Benson, Curtis, Smith, Jesse S., Zurek, Eva, Deemyad, Shanti
Format: Preprint
Publié: 2023
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Accès en ligne:https://arxiv.org/abs/2312.17498
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author Racioppi, Stefano
Saffarian-Deemyad, Iren
Holle, William
Belli, Francesco
Ferry, Richard
Kenney-Benson, Curtis
Smith, Jesse S.
Zurek, Eva
Deemyad, Shanti
author_facet Racioppi, Stefano
Saffarian-Deemyad, Iren
Holle, William
Belli, Francesco
Ferry, Richard
Kenney-Benson, Curtis
Smith, Jesse S.
Zurek, Eva
Deemyad, Shanti
contents We present theoretical and experimental studies of superconductivity and low temperature structural phase boundaries in lithium. We mapped the structural phase diagram of 6Li and 7Li under hydrostatic conditions between 5 top 55GPa and within the temperature range of 15 to 75K, observing the FCC-hR1-cI16 phase transitions. 6Li and 7Li show some differences at the structural boundaries, with a potential shift of the phase boundaries of 6Li to lower pressures. Density functional theory calculations and topological analysis of the electron density elucidates the superconducting properties and interatomic interactions within these phases of lithium.
format Preprint
id arxiv_https___arxiv_org_abs_2312_17498
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Phase Boundaries, Isotope Effect and Superconductivity of Lithium Under Hydrostatic Conditions
Racioppi, Stefano
Saffarian-Deemyad, Iren
Holle, William
Belli, Francesco
Ferry, Richard
Kenney-Benson, Curtis
Smith, Jesse S.
Zurek, Eva
Deemyad, Shanti
Superconductivity
We present theoretical and experimental studies of superconductivity and low temperature structural phase boundaries in lithium. We mapped the structural phase diagram of 6Li and 7Li under hydrostatic conditions between 5 top 55GPa and within the temperature range of 15 to 75K, observing the FCC-hR1-cI16 phase transitions. 6Li and 7Li show some differences at the structural boundaries, with a potential shift of the phase boundaries of 6Li to lower pressures. Density functional theory calculations and topological analysis of the electron density elucidates the superconducting properties and interatomic interactions within these phases of lithium.
title Phase Boundaries, Isotope Effect and Superconductivity of Lithium Under Hydrostatic Conditions
topic Superconductivity
url https://arxiv.org/abs/2312.17498