Fermi-surface instabilities in the organic conductor (Tmtsf)2no3: High-pressure studies.

W. Kang; K. Behnia; D. Jérome; L. Balicas; E. Canadell; M. Ribault; J. M. Fabre

doi:10.1209/0295-5075/29/8/008

Fermi-surface instabilities in the organic conductor (Tmtsf)₂no₃: High-pressure studies.

W. Kang, K. Behnia, D. Jérome, L. Balicas, E. Canadell, M. Ribault, J. M. Fabre

Research output: Contribution to journal › Article › peer-review

Abstract

The study of the magnetoresistance in the organic quasi-one-dimensional conductor (TMTSF)₂NO₃ at a pressure (8 kbar) exceeding the critical pressure required for the stabilization of a conducting state at low temperature has revealed the existence of quantum oscillations with a frequency of 190 T in good agreement with an extended Hiickel-type calculation of the band structure. Unlike other members of the (TMTSF)2X series the ambient pressure SDW ground state in (TMTSF)₂NO₃ can be understood in terms of an instability involving the nesting of 2D semi-metallic Fermi surfaces.

Original language	English
Pages (from-to)	635-640
Number of pages	6
Journal	EPL
Volume	29
Issue number	8
DOIs	https://doi.org/10.1209/0295-5075/29/8/008
Publication status	Published - 10 Mar 1995
Externally published	Yes

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title = "Fermi-surface instabilities in the organic conductor (Tmtsf)2no3: High-pressure studies.",

abstract = "The study of the magnetoresistance in the organic quasi-one-dimensional conductor (TMTSF)2NO3 at a pressure (8 kbar) exceeding the critical pressure required for the stabilization of a conducting state at low temperature has revealed the existence of quantum oscillations with a frequency of 190 T in good agreement with an extended Hiickel-type calculation of the band structure. Unlike other members of the (TMTSF)2X series the ambient pressure SDW ground state in (TMTSF)2NO3 can be understood in terms of an instability involving the nesting of 2D semi-metallic Fermi surfaces.",

author = "W. Kang and K. Behnia and D. J{\'e}rome and L. Balicas and E. Canadell and M. Ribault and Fabre, \{J. M.\}",

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T1 - Fermi-surface instabilities in the organic conductor (Tmtsf)2no3

T2 - High-pressure studies.

AU - Kang, W.

AU - Behnia, K.

AU - Jérome, D.

AU - Balicas, L.

AU - Canadell, E.

AU - Ribault, M.

AU - Fabre, J. M.

PY - 1995/3/10

Y1 - 1995/3/10

N2 - The study of the magnetoresistance in the organic quasi-one-dimensional conductor (TMTSF)2NO3 at a pressure (8 kbar) exceeding the critical pressure required for the stabilization of a conducting state at low temperature has revealed the existence of quantum oscillations with a frequency of 190 T in good agreement with an extended Hiickel-type calculation of the band structure. Unlike other members of the (TMTSF)2X series the ambient pressure SDW ground state in (TMTSF)2NO3 can be understood in terms of an instability involving the nesting of 2D semi-metallic Fermi surfaces.

AB - The study of the magnetoresistance in the organic quasi-one-dimensional conductor (TMTSF)2NO3 at a pressure (8 kbar) exceeding the critical pressure required for the stabilization of a conducting state at low temperature has revealed the existence of quantum oscillations with a frequency of 190 T in good agreement with an extended Hiickel-type calculation of the band structure. Unlike other members of the (TMTSF)2X series the ambient pressure SDW ground state in (TMTSF)2NO3 can be understood in terms of an instability involving the nesting of 2D semi-metallic Fermi surfaces.

U2 - 10.1209/0295-5075/29/8/008

DO - 10.1209/0295-5075/29/8/008

M3 - Article

AN - SCOPUS:84956244117

SN - 0295-5075

VL - 29

SP - 635

EP - 640

JO - EPL

JF - EPL

IS - 8

ER -

Fermi-surface instabilities in the organic conductor (Tmtsf)2no3: High-pressure studies.

Abstract

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Fermi-surface instabilities in the organic conductor (Tmtsf)₂no₃: High-pressure studies.