TRANSPORT PROPERTIES OF THE METALLIC STATE OF TMTSF-DMTCNQ.

A. Andrieux, P. M. Chaikin, C. Duroure, D. Jerome, C. Weyl, K. Bechgaard, J. R. Andersen

    Research output: Contribution to journalArticle

    Abstract

    The transport properties (longitudinal and transverse conductivity, magnetoresistance and thermopower) of TMTSF-DMTCNQ for pressures up to 13 kbar and temperatures down to 1. 2 K are reported together with the phase diagram which results from these measurements. The most striking results are the occurrence of a first order insulator-metal low temperature transition as pressure is increased above 9. 75 kbar and the properties of the metallic state. At pressures sufficiently high to quench the Peierls transition the helium temperature conductivity is greater than that found in any organic conductor at any temperature ( sigma // parallel greater than equivalent to 10**5 ( OMEGA cm)** minus **1) and an enormous magnetoresistance ( DELTA rho / rho //0 approximately equals 15) is found for a field of 75 kOe perpendicular to the conducting chains.

    Original languageEnglish (US)
    Pages (from-to)1199-1206
    Number of pages8
    JournalJournal de physique Paris
    Volume40
    Issue number12
    StatePublished - Dec 1979

    Fingerprint

    Transport properties
    Magnetoresistance
    Organic conductors
    Thermoelectric power
    Temperature
    Superconducting transition temperature
    Phase diagrams
    Helium
    Metals

    ASJC Scopus subject areas

    • Engineering(all)

    Cite this

    Andrieux, A., Chaikin, P. M., Duroure, C., Jerome, D., Weyl, C., Bechgaard, K., & Andersen, J. R. (1979). TRANSPORT PROPERTIES OF THE METALLIC STATE OF TMTSF-DMTCNQ. Journal de physique Paris, 40(12), 1199-1206.

    TRANSPORT PROPERTIES OF THE METALLIC STATE OF TMTSF-DMTCNQ. / Andrieux, A.; Chaikin, P. M.; Duroure, C.; Jerome, D.; Weyl, C.; Bechgaard, K.; Andersen, J. R.

    In: Journal de physique Paris, Vol. 40, No. 12, 12.1979, p. 1199-1206.

    Research output: Contribution to journalArticle

    Andrieux, A, Chaikin, PM, Duroure, C, Jerome, D, Weyl, C, Bechgaard, K & Andersen, JR 1979, 'TRANSPORT PROPERTIES OF THE METALLIC STATE OF TMTSF-DMTCNQ.', Journal de physique Paris, vol. 40, no. 12, pp. 1199-1206.
    Andrieux A, Chaikin PM, Duroure C, Jerome D, Weyl C, Bechgaard K et al. TRANSPORT PROPERTIES OF THE METALLIC STATE OF TMTSF-DMTCNQ. Journal de physique Paris. 1979 Dec;40(12):1199-1206.
    Andrieux, A. ; Chaikin, P. M. ; Duroure, C. ; Jerome, D. ; Weyl, C. ; Bechgaard, K. ; Andersen, J. R. / TRANSPORT PROPERTIES OF THE METALLIC STATE OF TMTSF-DMTCNQ. In: Journal de physique Paris. 1979 ; Vol. 40, No. 12. pp. 1199-1206.
    @article{4d78a6b85ca34f59bb3a862aa7f90e33,
    title = "TRANSPORT PROPERTIES OF THE METALLIC STATE OF TMTSF-DMTCNQ.",
    abstract = "The transport properties (longitudinal and transverse conductivity, magnetoresistance and thermopower) of TMTSF-DMTCNQ for pressures up to 13 kbar and temperatures down to 1. 2 K are reported together with the phase diagram which results from these measurements. The most striking results are the occurrence of a first order insulator-metal low temperature transition as pressure is increased above 9. 75 kbar and the properties of the metallic state. At pressures sufficiently high to quench the Peierls transition the helium temperature conductivity is greater than that found in any organic conductor at any temperature ( sigma // parallel greater than equivalent to 10**5 ( OMEGA cm)** minus **1) and an enormous magnetoresistance ( DELTA rho / rho //0 approximately equals 15) is found for a field of 75 kOe perpendicular to the conducting chains.",
    author = "A. Andrieux and Chaikin, {P. M.} and C. Duroure and D. Jerome and C. Weyl and K. Bechgaard and Andersen, {J. R.}",
    year = "1979",
    month = "12",
    language = "English (US)",
    volume = "40",
    pages = "1199--1206",
    journal = "Journal De Physique",
    issn = "0302-0738",
    publisher = "Societe Francaise De Physique",
    number = "12",

    }

    TY - JOUR

    T1 - TRANSPORT PROPERTIES OF THE METALLIC STATE OF TMTSF-DMTCNQ.

    AU - Andrieux, A.

    AU - Chaikin, P. M.

    AU - Duroure, C.

    AU - Jerome, D.

    AU - Weyl, C.

    AU - Bechgaard, K.

    AU - Andersen, J. R.

    PY - 1979/12

    Y1 - 1979/12

    N2 - The transport properties (longitudinal and transverse conductivity, magnetoresistance and thermopower) of TMTSF-DMTCNQ for pressures up to 13 kbar and temperatures down to 1. 2 K are reported together with the phase diagram which results from these measurements. The most striking results are the occurrence of a first order insulator-metal low temperature transition as pressure is increased above 9. 75 kbar and the properties of the metallic state. At pressures sufficiently high to quench the Peierls transition the helium temperature conductivity is greater than that found in any organic conductor at any temperature ( sigma // parallel greater than equivalent to 10**5 ( OMEGA cm)** minus **1) and an enormous magnetoresistance ( DELTA rho / rho //0 approximately equals 15) is found for a field of 75 kOe perpendicular to the conducting chains.

    AB - The transport properties (longitudinal and transverse conductivity, magnetoresistance and thermopower) of TMTSF-DMTCNQ for pressures up to 13 kbar and temperatures down to 1. 2 K are reported together with the phase diagram which results from these measurements. The most striking results are the occurrence of a first order insulator-metal low temperature transition as pressure is increased above 9. 75 kbar and the properties of the metallic state. At pressures sufficiently high to quench the Peierls transition the helium temperature conductivity is greater than that found in any organic conductor at any temperature ( sigma // parallel greater than equivalent to 10**5 ( OMEGA cm)** minus **1) and an enormous magnetoresistance ( DELTA rho / rho //0 approximately equals 15) is found for a field of 75 kOe perpendicular to the conducting chains.

    UR - http://www.scopus.com/inward/record.url?scp=0018707363&partnerID=8YFLogxK

    UR - http://www.scopus.com/inward/citedby.url?scp=0018707363&partnerID=8YFLogxK

    M3 - Article

    VL - 40

    SP - 1199

    EP - 1206

    JO - Journal De Physique

    JF - Journal De Physique

    SN - 0302-0738

    IS - 12

    ER -