Roller Coaster in a Flatland: Magnetoresistivity in Eu-Intercalated Graphite

Novel phenomena in magnetically intercalated graphite have been the subject of much research, pioneered and promoted by M. S. and G. Dresselhaus and many others in the 1980s. Among the most enigmatic findings of that era was the dramatic, roller-coaster-like behavior of the magnetoresistivity in aEu...

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Published in	Physical review. X Vol. 12; no. 2; p. 021010
Main Authors	Chernyshev, A. L., Starykh, O. A.
Format	Journal Article
Language	English
Published	College Park American Physical Society 14.04.2022 American Physical Society (APS)
Subjects	Antiferromagnetism antiferromagnets Boltzmann theory Condensed matter physics CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY Conduction electrons Configurations electrical conductivity Electrical resistivity Electron spin Electron transport Europium exchange interaction Excitation fermions Frustrated magnetism Graphene Graphite Heisenberg model Holstein-Primakoff method lattice models in condensed matter Magnetic fields Magnetic moments magnetic phase transitions Magnetism Magnetoresistivity magnetotransport Magnets Magnons Materials science noncollinear magnets Physical properties Roller coasters Scattering spin excitations spin lattice models spin liquid strongly correlated systems Superconductivity transport phenomena Two dimensional materials
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Abstract	Novel phenomena in magnetically intercalated graphite have been the subject of much research, pioneered and promoted by M. S. and G. Dresselhaus and many others in the 1980s. Among the most enigmatic findings of that era was the dramatic, roller-coaster-like behavior of the magnetoresistivity in aEuC6compound, in which magneticEu2+ions form a triangular lattice that is commensurate to graphite honeycomb planes. In this study, we provide a long-awaited microscopic explanation of this behavior, demonstrating that the resistivity ofEuC6is dominated by spin excitations in Eu planes and their highly nontrivial evolution with the magnetic field. Together with our theoretical analysis, the present study showcases the power of the synthetic 2D materials as a source of potentially significant insights into the nature of exotic spin excitations.
AbstractList	Novel phenomena in magnetically intercalated graphite have been the subject of much research, pioneered and promoted by M. S. and G. Dresselhaus and many others in the 1980s. Among the most enigmatic findings of that era was the dramatic, roller-coaster-like behavior of the magnetoresistivity in a EuC_{6} compound, in which magnetic Eu^{2+} ions form a triangular lattice that is commensurate to graphite honeycomb planes. In this study, we provide a long-awaited microscopic explanation of this behavior, demonstrating that the resistivity of EuC_{6} is dominated by spin excitations in Eu planes and their highly nontrivial evolution with the magnetic field. Together with our theoretical analysis, the present study showcases the power of the synthetic 2D materials as a source of potentially significant insights into the nature of exotic spin excitations. Novel phenomena in magnetically intercalated graphite have been the subject of much research, pioneered and promoted by M.S. and G. Dresselhaus and many others in the 1980s. Among the most enigmatic findings of that era was the dramatic, roller-coaster-like behavior of the magnetoresistivity in a EuC6 compound, in which magnetic Eu2+ ions form a triangular lattice that is commensurate to graphite honeycomb planes. In this study, we provide a long-awaited microscopic explanation of this behavior, demonstrating that the resistivity of EuC6 is dominated by spin excitations in Eu planes and their highly nontrivial evolution with the magnetic field. Together with our theoretical analysis, the present study showcases the power of the synthetic 2D materials as a source of potentially significant insights into the nature of exotic spin excitations. Novel phenomena in magnetically intercalated graphite have been the subject of much research, pioneered and promoted by M. S. and G. Dresselhaus and many others in the 1980s. Among the most enigmatic findings of that era was the dramatic, roller-coaster-like behavior of the magnetoresistivity in aEuC6compound, in which magneticEu2+ions form a triangular lattice that is commensurate to graphite honeycomb planes. In this study, we provide a long-awaited microscopic explanation of this behavior, demonstrating that the resistivity ofEuC6is dominated by spin excitations in Eu planes and their highly nontrivial evolution with the magnetic field. Together with our theoretical analysis, the present study showcases the power of the synthetic 2D materials as a source of potentially significant insights into the nature of exotic spin excitations.
ArticleNumber	021010
Author	Chernyshev, A. L. Starykh, O. A.
Author_xml	– sequence: 1 givenname: A. L. orcidid: 0000-0003-0965-568X surname: Chernyshev fullname: Chernyshev, A. L. – sequence: 2 givenname: O. A. orcidid: 0000-0003-1951-491X surname: Starykh fullname: Starykh, O. A.
BackLink	https://www.osti.gov/biblio/1863128$$D View this record in Osti.gov
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Snippet	Novel phenomena in magnetically intercalated graphite have been the subject of much research, pioneered and promoted by M. S. and G. Dresselhaus and many... Novel phenomena in magnetically intercalated graphite have been the subject of much research, pioneered and promoted by M.S. and G. Dresselhaus and many others...
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SubjectTerms	Antiferromagnetism antiferromagnets Boltzmann theory Condensed matter physics CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY Conduction electrons Configurations electrical conductivity Electrical resistivity Electron spin Electron transport Europium exchange interaction Excitation fermions Frustrated magnetism Graphene Graphite Heisenberg model Holstein-Primakoff method lattice models in condensed matter Magnetic fields Magnetic moments magnetic phase transitions Magnetism Magnetoresistivity magnetotransport Magnets Magnons Materials science noncollinear magnets Physical properties Roller coasters Scattering spin excitations spin lattice models spin liquid strongly correlated systems Superconductivity transport phenomena Two dimensional materials
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Title	Roller Coaster in a Flatland: Magnetoresistivity in Eu-Intercalated Graphite
URI	https://www.proquest.com/docview/2731133517 https://www.osti.gov/biblio/1863128 https://doaj.org/article/cc18e119c59f49b1b9e409582e713296
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