Symmetry-selected spin-split hybrid states in C sub(60)/ferromagnetic interfaces

The understanding of orbital hybridization and spin polarization at the organic-ferromagnetic interface is essential in the search for efficient hybrid spintronic devices. Here, using first-principles calculations, we report a systematic study of spin-split hybrid states of C sub(60) deposited on va...

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Veröffentlicht in:	Physical review. B 2016-02, Vol.93 (8)
Hauptverfasser:	Li, Dongzhe, Barreteau, Cyrille, Kawahara, Seiji Leo, Lagoute, Jerome, Chacon, Cyril, Girard, Yann, Rousset, Sylvie, Repain, Vincent, Smogunov, Alexander
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Sprache:	eng
Schlagworte:	Buckminsterfullerene Condensed matter Devices Ferromagnetism Fullerenes Orbitals Polarization Surface chemistry
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container_title	Physical review. B
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creator	Li, Dongzhe Barreteau, Cyrille Kawahara, Seiji Leo Lagoute, Jerome Chacon, Cyril Girard, Yann Rousset, Sylvie Repain, Vincent Smogunov, Alexander
description	The understanding of orbital hybridization and spin polarization at the organic-ferromagnetic interface is essential in the search for efficient hybrid spintronic devices. Here, using first-principles calculations, we report a systematic study of spin-split hybrid states of C sub(60) deposited on various ferromagnetic surfaces: bcc-Cr(001), bcc-Fe(001), bcc-Co(001), fcc-Co(001), and hcp-Co(0001). We show that the adsorption geometry of the molecule with respect to the surface crystallographic orientation of the magnetic substrate as well as the strength of the interaction play a crucial role in the spin polarization of the hybrid orbitals. We find that a large spin polarization in vacuum above the buckyball can only be achieved if the molecule is adsorbed upon a bcc-(001) surface by its pentagonal ring. Therefore, bcc-Cr(001), bcc-Fe(001), and bcc-Co(001) are the optimal candidates. Spin-polarized scanning tunneling spectroscopy measurements on single C sub(60) adsorbed on Cr(001) and Co/Pt(111) also confirm that the symmetry both of the substrate and of the molecular conformation has a strong influence on the induced spin polarization. Our finding may give valuable insights for further engineering of spin filtering devices through single molecular orbitals.
doi_str_mv	10.1103/PhysRevB.93.085425
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Here, using first-principles calculations, we report a systematic study of spin-split hybrid states of C sub(60) deposited on various ferromagnetic surfaces: bcc-Cr(001), bcc-Fe(001), bcc-Co(001), fcc-Co(001), and hcp-Co(0001). We show that the adsorption geometry of the molecule with respect to the surface crystallographic orientation of the magnetic substrate as well as the strength of the interaction play a crucial role in the spin polarization of the hybrid orbitals. We find that a large spin polarization in vacuum above the buckyball can only be achieved if the molecule is adsorbed upon a bcc-(001) surface by its pentagonal ring. Therefore, bcc-Cr(001), bcc-Fe(001), and bcc-Co(001) are the optimal candidates. Spin-polarized scanning tunneling spectroscopy measurements on single C sub(60) adsorbed on Cr(001) and Co/Pt(111) also confirm that the symmetry both of the substrate and of the molecular conformation has a strong influence on the induced spin polarization. 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B</title><description>The understanding of orbital hybridization and spin polarization at the organic-ferromagnetic interface is essential in the search for efficient hybrid spintronic devices. Here, using first-principles calculations, we report a systematic study of spin-split hybrid states of C sub(60) deposited on various ferromagnetic surfaces: bcc-Cr(001), bcc-Fe(001), bcc-Co(001), fcc-Co(001), and hcp-Co(0001). We show that the adsorption geometry of the molecule with respect to the surface crystallographic orientation of the magnetic substrate as well as the strength of the interaction play a crucial role in the spin polarization of the hybrid orbitals. We find that a large spin polarization in vacuum above the buckyball can only be achieved if the molecule is adsorbed upon a bcc-(001) surface by its pentagonal ring. Therefore, bcc-Cr(001), bcc-Fe(001), and bcc-Co(001) are the optimal candidates. 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B</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Li, Dongzhe</au><au>Barreteau, Cyrille</au><au>Kawahara, Seiji Leo</au><au>Lagoute, Jerome</au><au>Chacon, Cyril</au><au>Girard, Yann</au><au>Rousset, Sylvie</au><au>Repain, Vincent</au><au>Smogunov, Alexander</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Symmetry-selected spin-split hybrid states in C sub(60)/ferromagnetic interfaces</atitle><jtitle>Physical review. B</jtitle><date>2016-02-15</date><risdate>2016</risdate><volume>93</volume><issue>8</issue><issn>2469-9950</issn><eissn>2469-9969</eissn><abstract>The understanding of orbital hybridization and spin polarization at the organic-ferromagnetic interface is essential in the search for efficient hybrid spintronic devices. Here, using first-principles calculations, we report a systematic study of spin-split hybrid states of C sub(60) deposited on various ferromagnetic surfaces: bcc-Cr(001), bcc-Fe(001), bcc-Co(001), fcc-Co(001), and hcp-Co(0001). We show that the adsorption geometry of the molecule with respect to the surface crystallographic orientation of the magnetic substrate as well as the strength of the interaction play a crucial role in the spin polarization of the hybrid orbitals. We find that a large spin polarization in vacuum above the buckyball can only be achieved if the molecule is adsorbed upon a bcc-(001) surface by its pentagonal ring. Therefore, bcc-Cr(001), bcc-Fe(001), and bcc-Co(001) are the optimal candidates. Spin-polarized scanning tunneling spectroscopy measurements on single C sub(60) adsorbed on Cr(001) and Co/Pt(111) also confirm that the symmetry both of the substrate and of the molecular conformation has a strong influence on the induced spin polarization. Our finding may give valuable insights for further engineering of spin filtering devices through single molecular orbitals.</abstract><doi>10.1103/PhysRevB.93.085425</doi></addata></record>
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subjects	Buckminsterfullerene Condensed matter Devices Ferromagnetism Fullerenes Orbitals Polarization Surface chemistry
title	Symmetry-selected spin-split hybrid states in C sub(60)/ferromagnetic interfaces
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