Pressure effects on the electronic structure and low-temperature states in the -(BEDT-TTF)2MHg(SCN)4 organic-conductor family (M=K, Rb, Tl, NH4)

Authors

J. S. Brooks, College of Arts & Sciences
X. Chen, College of Arts & Sciences
S. J. Klepper, Francis Bitter Magnet Laboratory
S. Valfells, College of Arts & Sciences
G. J. Athas, College of Arts & Sciences
Y. Tanaka, Electrotechnical Laboratory
T. Kinoshita, Electrotechnical Laboratory
N. Kinoshita, Electrotechnical Laboratory
M. Tokumoto, Electrotechnical Laboratory
H. Anzai, University of Hyogo
C. C. Agosta, Clark UniversityFollow

Document Type

Article

Abstract

We have used the magnetoresistance and the Shubnikode Haas effect to study the pressure-dependent ground states of -(BEDT-TTF)2MHg(SCN)4 [where BEDT-TTF is alpha-bis(ethylenedithio) tetrathiafulvalene-M (=potassium, rubidium, thallium, or ammonium)-mercury-thiocyanate]. Extended Ḧckel tight-binding calculations show that this isostructural class of materials has a quasi-two-dimensional Fermi surface with both open and closed orbit bands. Both superconducting (M=NH4) and density-wave (M=K, Tl, and Rb) states in these materials have been investigated. We report the effects of pressure on the electronic structure (Fermi surface), the density-wave state, and the superconducting state. We find (where M=Tl, for example) that the fundamental closed-orbit and Brillouin-zone areas increase with pressure at a rate of 1.3%/kbar and 0.5%/kbar, respectively. We observe pressure-induced changes in the nesting condition of the open-orbit band that allow new small closed orbits on the Fermi surface. The onset of quasi-three-dimensional behavior with increasing pressure is observed in some cases. In those materials with density-wave states, the associated resistive anomalies are removed between 6 and 8 kbar. In the superconducting member (M=NH4), pressure decreases the superconducting transition temperature Tc as dTc/dP-0.25 K/kbar, with a corresponding reduction in the effective mass. From analysis of the pressure dependence of Tc we find that the interaction term in the mean-field expression for superconductivity is very sensitive to pressure. We note that the pronounced pressure dependence of the electronic properties of these materials provides fertile ground for future studies of low-dimensional phenomena. © 1995 The American Physical Society.

Publication Title

Physical Review B

Publication Date

1995

Volume

52

Issue

20

First Page

14457

Last Page

14478

ISSN

0163-1829

DOI

10.1103/PhysRevB.52.14457

Keywords

superconductivity, magnetic fields

Repository Citation

Brooks, J. S.; Chen, X.; Klepper, S. J.; Valfells, S.; Athas, G. J.; Tanaka, Y.; Kinoshita, T.; Kinoshita, N.; Tokumoto, M.; Anzai, H.; and Agosta, C. C., "Pressure effects on the electronic structure and low-temperature states in the -(BEDT-TTF)2MHg(SCN)4 organic-conductor family (M=K, Rb, Tl, NH4)" (1995). Physics. 46.
https://commons.clarku.edu/faculty_physics/46