Spin state transformations of a 3d ion in the pyramidal environment and under lattice distortions

Spin state (SS) transitions in metal-containing pyramidal complexes that originate from crystallographic distortions are the research subject of this work. The transition elements are considered to be in the 3d6 configuration (Fe2+, Co3+), and they display three different SSs: low-spin (LS,S = 0), i...

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Veröffentlicht in:	Journal of physics. Condensed matter 2007-04, Vol.19 (15), p.156216-156216 (15)
Hauptverfasser:	Zhitlukhina, E S, Lamonova, K V, Orel, S M, Lemmens, P, Pashkevich, Yu G
Format:	Artikel
Sprache:	eng
Schlagworte:	Condensed matter: electronic structure, electrical, magnetic, and optical properties Condensed matter: structure, mechanical and thermal properties Crystalline state (including molecular motions in solids) Electron states Exact sciences and technology Level splitting and interactions Physics Structure of solids and liquids crystallography Theory of crystal structure, crystal symmetry calculations and modeling
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container_end_page	156216 (15)
container_issue	15
container_start_page	156216
container_title	Journal of physics. Condensed matter
container_volume	19
creator	Zhitlukhina, E S Lamonova, K V Orel, S M Lemmens, P Pashkevich, Yu G
description	Spin state (SS) transitions in metal-containing pyramidal complexes that originate from crystallographic distortions are the research subject of this work. The transition elements are considered to be in the 3d6 configuration (Fe2+, Co3+), and they display three different SSs: low-spin (LS,S = 0), intermediate-spin (IS,S = 1) and high-spin (HS,S = 2) states. They have been studied in the frame of the crystal field approximation via the effective nuclear charge Zeff and under oxygen cage distortions. The features of the SS stability have been calculated with/without accounting for spin-orbit coupling. Some critical points at which an accidental degeneracy of the SSs exist have been revealed. Near the critical points, negligible distortions can crucially change the SS. It is demonstrated that the ground SS of the pyramidal MeO5 complex is very sensitive to the symmetry and magnitude of its distortions. SS diagrams in the parameter space 'effective charge'-'distortion magnitude' have been established. It is revealed that the IS state exists as a ground state for all considered distortions with a corresponding choice of Zeff. Jahn-Teller distortions stabilize the IS state in a wide range of Zeff. The orbital-like reorientation of the electron density distribution was observed for the IS state at some threshold magnitude of Jahn-Teller distortions.
doi_str_mv	10.1088/0953-8984/19/15/156216
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The transition elements are considered to be in the 3d6 configuration (Fe2+, Co3+), and they display three different SSs: low-spin (LS,S = 0), intermediate-spin (IS,S = 1) and high-spin (HS,S = 2) states. They have been studied in the frame of the crystal field approximation via the effective nuclear charge Zeff and under oxygen cage distortions. The features of the SS stability have been calculated with/without accounting for spin-orbit coupling. Some critical points at which an accidental degeneracy of the SSs exist have been revealed. Near the critical points, negligible distortions can crucially change the SS. It is demonstrated that the ground SS of the pyramidal MeO5 complex is very sensitive to the symmetry and magnitude of its distortions. SS diagrams in the parameter space 'effective charge'-'distortion magnitude' have been established. It is revealed that the IS state exists as a ground state for all considered distortions with a corresponding choice of Zeff. 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Condensed matter</title><description>Spin state (SS) transitions in metal-containing pyramidal complexes that originate from crystallographic distortions are the research subject of this work. The transition elements are considered to be in the 3d6 configuration (Fe2+, Co3+), and they display three different SSs: low-spin (LS,S = 0), intermediate-spin (IS,S = 1) and high-spin (HS,S = 2) states. They have been studied in the frame of the crystal field approximation via the effective nuclear charge Zeff and under oxygen cage distortions. The features of the SS stability have been calculated with/without accounting for spin-orbit coupling. Some critical points at which an accidental degeneracy of the SSs exist have been revealed. Near the critical points, negligible distortions can crucially change the SS. It is demonstrated that the ground SS of the pyramidal MeO5 complex is very sensitive to the symmetry and magnitude of its distortions. SS diagrams in the parameter space 'effective charge'-'distortion magnitude' have been established. It is revealed that the IS state exists as a ground state for all considered distortions with a corresponding choice of Zeff. Jahn-Teller distortions stabilize the IS state in a wide range of Zeff. 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Condensed matter</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Zhitlukhina, E S</au><au>Lamonova, K V</au><au>Orel, S M</au><au>Lemmens, P</au><au>Pashkevich, Yu G</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Spin state transformations of a 3d ion in the pyramidal environment and under lattice distortions</atitle><jtitle>Journal of physics. Condensed matter</jtitle><date>2007-04-16</date><risdate>2007</risdate><volume>19</volume><issue>15</issue><spage>156216</spage><epage>156216 (15)</epage><pages>156216-156216 (15)</pages><issn>0953-8984</issn><eissn>1361-648X</eissn><coden>JCOMEL</coden><abstract>Spin state (SS) transitions in metal-containing pyramidal complexes that originate from crystallographic distortions are the research subject of this work. The transition elements are considered to be in the 3d6 configuration (Fe2+, Co3+), and they display three different SSs: low-spin (LS,S = 0), intermediate-spin (IS,S = 1) and high-spin (HS,S = 2) states. They have been studied in the frame of the crystal field approximation via the effective nuclear charge Zeff and under oxygen cage distortions. The features of the SS stability have been calculated with/without accounting for spin-orbit coupling. Some critical points at which an accidental degeneracy of the SSs exist have been revealed. Near the critical points, negligible distortions can crucially change the SS. It is demonstrated that the ground SS of the pyramidal MeO5 complex is very sensitive to the symmetry and magnitude of its distortions. SS diagrams in the parameter space 'effective charge'-'distortion magnitude' have been established. It is revealed that the IS state exists as a ground state for all considered distortions with a corresponding choice of Zeff. Jahn-Teller distortions stabilize the IS state in a wide range of Zeff. The orbital-like reorientation of the electron density distribution was observed for the IS state at some threshold magnitude of Jahn-Teller distortions.</abstract><cop>Bristol</cop><pub>IOP Publishing</pub><doi>10.1088/0953-8984/19/15/156216</doi></addata></record>
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subjects	Condensed matter: electronic structure, electrical, magnetic, and optical properties Condensed matter: structure, mechanical and thermal properties Crystalline state (including molecular motions in solids) Electron states Exact sciences and technology Level splitting and interactions Physics Structure of solids and liquids crystallography Theory of crystal structure, crystal symmetry calculations and modeling
title	Spin state transformations of a 3d ion in the pyramidal environment and under lattice distortions
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