Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃)

We have calculated the phonon contribution to the energy of a superexchange. It is shown that the phonon contribution to the exchange interaction is comparable on the order of magnitude with the Coulomb superexchange. The numerical calculations are performed for a molecular cluster consisting of an...

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Дата:	2005
Автор:	Kashirina, N.I.
Формат:	Стаття
Мова:	English
Опубліковано:	Інститут фізики напівпровідників імені В.Є. Лашкарьова НАН України 2005
Назва видання:	Semiconductor Physics Quantum Electronics & Optoelectronics
Онлайн доступ:	http://dspace.nbuv.gov.ua/handle/123456789/120968
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Назва журналу:	Digital Library of Periodicals of National Academy of Sciences of Ukraine
Цитувати:	Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃) / N.I. Kashirina // Semiconductor Physics Quantum Electronics & Optoelectronics. — 2005. — Т. 8, № 3. — С. 30-38. — Бібліогр.: 33 назв. — англ.

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Digital Library of Periodicals of National Academy of Sciences of Ukraine

id	irk-123456789-120968
record_format	dspace
spelling	irk-123456789-1209682017-06-14T03:04:20Z Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃) Kashirina, N.I. We have calculated the phonon contribution to the energy of a superexchange. It is shown that the phonon contribution to the exchange interaction is comparable on the order of magnitude with the Coulomb superexchange. The numerical calculations are performed for a molecular cluster consisting of an exchange-coupled pair V ²⁺−F–−V ²⁺ and 10 nearest ions F- in KMgF₃. The distinctions of a temperature dependence of the exchange interaction caused by phonons are discussed. In systems with the close located electronic levels, the account of interaction with a phonon field reduces in occurrence of resonant terms in the exchange interaction of paramagnetic ions. The similar terms result in occurrence of the exponential temperature dependence in an exchange interaction. As an example, the exchange pair of Cu²⁺ ions in K₂CuCl₄ ⋅ 2H₂O ⋅ has been considered. The experimentally observed anomalously strong temperature dependence of the exchange interaction of copper ions in this system can be described by the contribution of the resonant terms caused by a phonon contribution to the exchange interaction. The total exchange can be described by the dependence IΣ = I₀ - I₁(ex -1)⁻¹ where IΣ is the complete exchange interaction in a system including the phonon contribution (the second term) x = δ/k₀T with the parameters I₀ ≅ 0.29 Κ , I₁ ≅ 0.22 Κ , δ ≅ 192 Κ. The parameter δ corresponds to the splitting of a doubly degenerated lowest term of the copper ion in the crystalline field. 2005 Article Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃) / N.I. Kashirina // Semiconductor Physics Quantum Electronics & Optoelectronics. — 2005. — Т. 8, № 3. — С. 30-38. — Бібліогр.: 33 назв. — англ. 1560-8034 PACS: 71.70.Gm, 75.30.Et, 71.38.-k. http://dspace.nbuv.gov.ua/handle/123456789/120968 en Semiconductor Physics Quantum Electronics & Optoelectronics Інститут фізики напівпровідників імені В.Є. Лашкарьова НАН України
institution	Digital Library of Periodicals of National Academy of Sciences of Ukraine
collection	DSpace DC
language	English
description	We have calculated the phonon contribution to the energy of a superexchange. It is shown that the phonon contribution to the exchange interaction is comparable on the order of magnitude with the Coulomb superexchange. The numerical calculations are performed for a molecular cluster consisting of an exchange-coupled pair V ²⁺−F–−V ²⁺ and 10 nearest ions F- in KMgF₃. The distinctions of a temperature dependence of the exchange interaction caused by phonons are discussed. In systems with the close located electronic levels, the account of interaction with a phonon field reduces in occurrence of resonant terms in the exchange interaction of paramagnetic ions. The similar terms result in occurrence of the exponential temperature dependence in an exchange interaction. As an example, the exchange pair of Cu²⁺ ions in K₂CuCl₄ ⋅ 2H₂O ⋅ has been considered. The experimentally observed anomalously strong temperature dependence of the exchange interaction of copper ions in this system can be described by the contribution of the resonant terms caused by a phonon contribution to the exchange interaction. The total exchange can be described by the dependence IΣ = I₀ - I₁(ex -1)⁻¹ where IΣ is the complete exchange interaction in a system including the phonon contribution (the second term) x = δ/k₀T with the parameters I₀ ≅ 0.29 Κ , I₁ ≅ 0.22 Κ , δ ≅ 192 Κ. The parameter δ corresponds to the splitting of a doubly degenerated lowest term of the copper ion in the crystalline field.
format	Article
author	Kashirina, N.I.
spellingShingle	Kashirina, N.I. Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃) Semiconductor Physics Quantum Electronics & Optoelectronics
author_facet	Kashirina, N.I.
author_sort	Kashirina, N.I.
title	Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃)
title_short	Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃)
title_full	Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃)
title_fullStr	Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃)
title_full_unstemmed	Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃)
title_sort	polaron effects in exchange clusters (v²⁺ - f⁻ - v²⁺ in kmgf₃)
publisher	Інститут фізики напівпровідників імені В.Є. Лашкарьова НАН України
publishDate	2005
url	http://dspace.nbuv.gov.ua/handle/123456789/120968
citation_txt	Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃) / N.I. Kashirina // Semiconductor Physics Quantum Electronics & Optoelectronics. — 2005. — Т. 8, № 3. — С. 30-38. — Бібліогр.: 33 назв. — англ.
series	Semiconductor Physics Quantum Electronics & Optoelectronics
work_keys_str_mv	AT kashirinani polaroneffectsinexchangeclustersv2fv2inkmgf3
first_indexed	2023-10-18T20:38:31Z
last_indexed	2023-10-18T20:38:31Z
_version_	1796150727901446144

Polaron effects in exchange clusters (V²⁺ - F⁻ - V²⁺ in KMgF₃)

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