Metastable solid 4 He and the possible role of point defects
The metastable phase of solid He and the possible role of point defects in its destabilization are investigated by the introduction of a trial function of the shadow class with an explicit symmetrical kernel. This is a trial function that ensures the possible exchange of atoms and the delocalization...
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| Veröffentlicht in: | Journal of physics. Condensed matter 2021-03, Vol.33 (7), p.075901 |
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| container_title | Journal of physics. Condensed matter |
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| creator | Pedroso, V Z Zampronio, V Vitiello, S A |
| description | The metastable phase of solid
He and the possible role of point defects in its destabilization are investigated by the introduction of a trial function of the shadow class with an explicit symmetrical kernel. This is a trial function that ensures the possible exchange of atoms and the delocalization of atoms and defects in a very effective manner. We show that the formation energy for vacancies is equal to zero at a pressure P
= 20 ± 2 atm, which is in excellent agreement with the experimental observation. The pressure at which a self-interstitial also has a formation energy equal to zero, is in agreement with the density where vacancies have the same property. Formation energies of a
He interstitial or a substitutional impurity were estimated. Other properties of interest for systems made from
He atoms are estimated and compared with results from the literature whenever available. |
| format | Article |
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He and the possible role of point defects in its destabilization are investigated by the introduction of a trial function of the shadow class with an explicit symmetrical kernel. This is a trial function that ensures the possible exchange of atoms and the delocalization of atoms and defects in a very effective manner. We show that the formation energy for vacancies is equal to zero at a pressure P
= 20 ± 2 atm, which is in excellent agreement with the experimental observation. The pressure at which a self-interstitial also has a formation energy equal to zero, is in agreement with the density where vacancies have the same property. Formation energies of a
He interstitial or a substitutional impurity were estimated. Other properties of interest for systems made from
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He and the possible role of point defects in its destabilization are investigated by the introduction of a trial function of the shadow class with an explicit symmetrical kernel. This is a trial function that ensures the possible exchange of atoms and the delocalization of atoms and defects in a very effective manner. We show that the formation energy for vacancies is equal to zero at a pressure P
= 20 ± 2 atm, which is in excellent agreement with the experimental observation. The pressure at which a self-interstitial also has a formation energy equal to zero, is in agreement with the density where vacancies have the same property. Formation energies of a
He interstitial or a substitutional impurity were estimated. Other properties of interest for systems made from
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He and the possible role of point defects in its destabilization are investigated by the introduction of a trial function of the shadow class with an explicit symmetrical kernel. This is a trial function that ensures the possible exchange of atoms and the delocalization of atoms and defects in a very effective manner. We show that the formation energy for vacancies is equal to zero at a pressure P
= 20 ± 2 atm, which is in excellent agreement with the experimental observation. The pressure at which a self-interstitial also has a formation energy equal to zero, is in agreement with the density where vacancies have the same property. Formation energies of a
He interstitial or a substitutional impurity were estimated. Other properties of interest for systems made from
He atoms are estimated and compared with results from the literature whenever available.</abstract><cop>England</cop><pmid>33684073</pmid></addata></record> |
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| identifier | EISSN: 1361-648X |
| ispartof | Journal of physics. Condensed matter, 2021-03, Vol.33 (7), p.075901 |
| issn | 1361-648X |
| language | eng |
| recordid | cdi_pubmed_primary_33684073 |
| source | IOP Publishing Journals; Institute of Physics (IOP) Journals - HEAL-Link |
| title | Metastable solid 4 He and the possible role of point defects |
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