Possible quantum Hall effect in a magnetic-field-induced phase transition in the quasi-one-dimensional CDW organic conductor, HMTSF–TCNQ

We have studied the angular dependence of magnetoresistance and Hall effect of the CDW organic conductor, HMTSF-TCNQ in order to see whether a magnetic-field-induced phase exists in the charge density wave (CDW) system, similarly to the magnetic-field-induced SDW phases in (TMTSF) sub(2)X. The anoma...

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Published in:Physica. B, Condensed matter Condensed matter, 2015-03, Vol.460, p.241-244
Main Authors: Murata, Keizo, Fukumoto, Yuhei, Yokogawa, Keiichi, Kang, Woun, Takaoka, Ryo, Tada, Ryota, Hirayama, H., Brooks, James S., Graf, David, Yoshino, Harukazu, Sasaki, Takahiko, Kato, Reizo
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Language:English
Subjects:
Anomalies
Condensed matter
Conductors (devices)
Low pressure
Magnetoresistance
Magnetoresistivity
Pocket
Quantum Hall effect
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cited_by cdi_FETCH-LOGICAL-c348t-95334e443de98e12425bad539f688bc2082ef8fe26e26aa1e9565fced6be3acd3
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container_title Physica. B, Condensed matter
container_volume 460
creator Murata, Keizo
Fukumoto, Yuhei
Yokogawa, Keiichi
Kang, Woun
Takaoka, Ryo
Tada, Ryota
Hirayama, H.
Brooks, James S.
Graf, David
Yoshino, Harukazu
Sasaki, Takahiko
Kato, Reizo
description We have studied the angular dependence of magnetoresistance and Hall effect of the CDW organic conductor, HMTSF-TCNQ in order to see whether a magnetic-field-induced phase exists in the charge density wave (CDW) system, similarly to the magnetic-field-induced SDW phases in (TMTSF) sub(2)X. The anomaly in magnetoresistance was observed only around the pressure where the CDW is almost suppressed, i.e. around 0.8-1.1 GPa, but neither at low pressures (0 and 0.5 GPa) nor at high pressure above 2 GPa. This behavior is quite similar to that of (TMTSF) sub(2)X. At 1.1 GPa anomalies were found at fields of 0.2 T and 10 T. We speculate that at 1.1 GPa the field-induced phase is located between 0.2 T and 10 T, where 1D Fermi surface sheet and 2D Fermi-surface pocket are present. The R sub()xyshows plateau structure and R sub()xxwas very small in the same region, suggestive of quantum Hall effect.
doi_str_mv 10.1016/j.physb.2014.11.080
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subjects Anomalies
Condensed matter
Conductors (devices)
Low pressure
Magnetoresistance
Magnetoresistivity
Pocket
Quantum Hall effect
title Possible quantum Hall effect in a magnetic-field-induced phase transition in the quasi-one-dimensional CDW organic conductor, HMTSF–TCNQ
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