Sub-lattice of Jahn-Teller centers in hexaferrite crystal

A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe 12 O 19 . In the un-doped crystal all iron ions, sitting in five different crystallographic positions, are Fe 3+ in the high-spin configuration (S = 5/2) and have a non-degenerate ground stat...

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Published in	Scientific reports Vol. 10; no. 1; p. 7076
Main Authors	Gudkov, V. V., Sarychev, M. N., Zherlitsyn, S., Zhevstovskikh, I. V., Averkiev, N. S., Vinnik, D. A., Gudkova, S. A., Niewa, R., Dressel, M., Alyabyeva, L. N., Gorshunov, B. P., Bersuker, I. B.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 27.04.2020 Nature Publishing Group
Subjects	639/766/119/996 639/766/25/3927 639/766/400/561 Adiabatic Approximation Barium Chemical elements Chemistry Humanities and Social Sciences Ions Iron Magnetic fields multidisciplinary Phase transitions Physics Potential energy Quantum theory Science Science (multidisciplinary) Symmetry Ultrasound
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ISSN	2045-2322 2045-2322
DOI	10.1038/s41598-020-63915-7

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Abstract	A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe 12 O 19 . In the un-doped crystal all iron ions, sitting in five different crystallographic positions, are Fe 3+ in the high-spin configuration (S = 5/2) and have a non-degenerate ground state. We show that the electron-donor Ti substitution converts the ions to Fe 2+ predominantly in tetrahedral coordination, resulting in doubly-degenerate states subject to the E ⊗ e problem of the JT effect. The arranged JT complexes, Fe 2+ O 4 , their adiabatic potential energy, non-linear and quantum dynamics, have been studied by means of ultrasound and terahertz-infrared spectroscopies. The JT complexes are sensitive to external stress and applied magnetic field. For that reason, the properties of the doped crystal can be controlled by the amount and state of the JT complexes.
AbstractList	A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe12O19. In the un-doped crystal all iron ions, sitting in five different crystallographic positions, are Fe3+ in the high-spin configuration (S = 5/2) and have a non-degenerate ground state. We show that the electron-donor Ti substitution converts the ions to Fe2+ predominantly in tetrahedral coordination, resulting in doubly-degenerate states subject to the E⊗e problem of the JT effect. The arranged JT complexes, Fe2+O4, their adiabatic potential energy, non-linear and quantum dynamics, have been studied by means of ultrasound and terahertz-infrared spectroscopies. The JT complexes are sensitive to external stress and applied magnetic field. For that reason, the properties of the doped crystal can be controlled by the amount and state of the JT complexes. A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe12O19. In the un-doped crystal all iron ions, sitting in five different crystallographic positions, are Fe3+ in the high-spin configuration (S = 5/2) and have a non-degenerate ground state. We show that the electron-donor Ti substitution converts the ions to Fe2+ predominantly in tetrahedral coordination, resulting in doubly-degenerate states subject to the [Formula: see text] problem of the JT effect. The arranged JT complexes, Fe2+O4, their adiabatic potential energy, non-linear and quantum dynamics, have been studied by means of ultrasound and terahertz-infrared spectroscopies. The JT complexes are sensitive to external stress and applied magnetic field. For that reason, the properties of the doped crystal can be controlled by the amount and state of the JT complexes.A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe12O19. In the un-doped crystal all iron ions, sitting in five different crystallographic positions, are Fe3+ in the high-spin configuration (S = 5/2) and have a non-degenerate ground state. We show that the electron-donor Ti substitution converts the ions to Fe2+ predominantly in tetrahedral coordination, resulting in doubly-degenerate states subject to the [Formula: see text] problem of the JT effect. The arranged JT complexes, Fe2+O4, their adiabatic potential energy, non-linear and quantum dynamics, have been studied by means of ultrasound and terahertz-infrared spectroscopies. The JT complexes are sensitive to external stress and applied magnetic field. For that reason, the properties of the doped crystal can be controlled by the amount and state of the JT complexes. A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe O . In the un-doped crystal all iron ions, sitting in five different crystallographic positions, are Fe in the high-spin configuration (S = 5/2) and have a non-degenerate ground state. We show that the electron-donor Ti substitution converts the ions to Fe predominantly in tetrahedral coordination, resulting in doubly-degenerate states subject to the [Formula: see text] problem of the JT effect. The arranged JT complexes, Fe O , their adiabatic potential energy, non-linear and quantum dynamics, have been studied by means of ultrasound and terahertz-infrared spectroscopies. The JT complexes are sensitive to external stress and applied magnetic field. For that reason, the properties of the doped crystal can be controlled by the amount and state of the JT complexes. A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe 12 O 19 . In the un-doped crystal all iron ions, sitting in five different crystallographic positions, are Fe 3+ in the high-spin configuration (S = 5/2) and have a non-degenerate ground state. We show that the electron-donor Ti substitution converts the ions to Fe 2+ predominantly in tetrahedral coordination, resulting in doubly-degenerate states subject to the E ⊗ e problem of the JT effect. The arranged JT complexes, Fe 2+ O 4 , their adiabatic potential energy, non-linear and quantum dynamics, have been studied by means of ultrasound and terahertz-infrared spectroscopies. The JT complexes are sensitive to external stress and applied magnetic field. For that reason, the properties of the doped crystal can be controlled by the amount and state of the JT complexes. A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe 12 O 19 . In the un-doped crystal all iron ions, sitting in five different crystallographic positions, are Fe 3+ in the high-spin configuration (S = 5/2) and have a non-degenerate ground state. We show that the electron-donor Ti substitution converts the ions to Fe 2+ predominantly in tetrahedral coordination, resulting in doubly-degenerate states subject to the \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$E\otimes e$$\end{document} E ⊗ e problem of the JT effect. The arranged JT complexes, Fe 2+ O 4 , their adiabatic potential energy, non-linear and quantum dynamics, have been studied by means of ultrasound and terahertz-infrared spectroscopies. The JT complexes are sensitive to external stress and applied magnetic field. For that reason, the properties of the doped crystal can be controlled by the amount and state of the JT complexes. A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe 12 O 19 . In the un-doped crystal all iron ions, sitting in five different crystallographic positions, are Fe 3+ in the high-spin configuration (S = 5/2) and have a non-degenerate ground state. We show that the electron-donor Ti substitution converts the ions to Fe 2+ predominantly in tetrahedral coordination, resulting in doubly-degenerate states subject to the $$E\otimes e$$ E ⊗ e problem of the JT effect. The arranged JT complexes, Fe 2+ O 4 , their adiabatic potential energy, non-linear and quantum dynamics, have been studied by means of ultrasound and terahertz-infrared spectroscopies. The JT complexes are sensitive to external stress and applied magnetic field. For that reason, the properties of the doped crystal can be controlled by the amount and state of the JT complexes.
ArticleNumber	7076
Author	Gudkova, S. A. Zhevstovskikh, I. V. Bersuker, I. B. Niewa, R. Alyabyeva, L. N. Gudkov, V. V. Dressel, M. Averkiev, N. S. Zherlitsyn, S. Gorshunov, B. P. Sarychev, M. N. Vinnik, D. A.
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/32341430$$D View this record in MEDLINE/PubMed
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Snippet	A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe 12 O 19 . In the un-doped crystal all iron ions,... A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe O . In the un-doped crystal all iron ions, sitting... A novel type of sub-lattice of the Jahn-Teller (JT) centers was arranged in Ti-doped barium hexaferrite BaFe12O19. In the un-doped crystal all iron ions,...
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Title	Sub-lattice of Jahn-Teller centers in hexaferrite crystal
URI	https://link.springer.com/article/10.1038/s41598-020-63915-7 https://www.ncbi.nlm.nih.gov/pubmed/32341430 https://www.proquest.com/docview/2395250496 https://www.proquest.com/docview/2395620923 https://pubmed.ncbi.nlm.nih.gov/PMC7184747
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