MAGNETO-TRANSPORT AND ELECTRONIC PHASE TRANSITION IN GRAPHITE IN HIGH MAGNETIC FIELDS.

N. Miura; T. Osaka; T. Goto

MAGNETO-TRANSPORT AND ELECTRONIC PHASE TRANSITION IN GRAPHITE IN HIGH MAGNETIC FIELDS.

N. Miura^*, T. Osaka, T. Goto

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

3 Citations (Scopus)

Abstract

Electronic states in solids under extremely high magnetic fields are of interest in relation to a phase transition such as the Wigner crystallization and the charge density wave (CDW) transition. An anomaly recently discovered in the magnetoresistance in single crystal graphite in high magnetic fields at low temperatures appears to be one of such phase transitions. In an earlier paper, we have investigated the amount of the change of the magnetoresistance at the anomaly in pulsed high magnetic fields. In this paper, we investigate the Hall effect and the A. C. magnetoresistance in higher fields.

Original language	English
Title of host publication	Unknown Host Publication Title
Editors	James D. Chadi, Walter A. Harrison
Publisher	Springer Verlag
Pages	973-976
Number of pages	4
ISBN (Print)	0387961089
Publication status	Published - 1985 Dec 1
Externally published	Yes

ASJC Scopus subject areas

Engineering(all)

Cite this

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title = "MAGNETO-TRANSPORT AND ELECTRONIC PHASE TRANSITION IN GRAPHITE IN HIGH MAGNETIC FIELDS.",

abstract = "Electronic states in solids under extremely high magnetic fields are of interest in relation to a phase transition such as the Wigner crystallization and the charge density wave (CDW) transition. An anomaly recently discovered in the magnetoresistance in single crystal graphite in high magnetic fields at low temperatures appears to be one of such phase transitions. In an earlier paper, we have investigated the amount of the change of the magnetoresistance at the anomaly in pulsed high magnetic fields. In this paper, we investigate the Hall effect and the A. C. magnetoresistance in higher fields.",

author = "N. Miura and T. Osaka and T. Goto",

year = "1985",

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day = "1",

language = "English",

isbn = "0387961089",

publisher = "Springer Verlag",

pages = "973--976",

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T1 - MAGNETO-TRANSPORT AND ELECTRONIC PHASE TRANSITION IN GRAPHITE IN HIGH MAGNETIC FIELDS.

AU - Miura, N.

AU - Osaka, T.

AU - Goto, T.

PY - 1985/12/1

Y1 - 1985/12/1

N2 - Electronic states in solids under extremely high magnetic fields are of interest in relation to a phase transition such as the Wigner crystallization and the charge density wave (CDW) transition. An anomaly recently discovered in the magnetoresistance in single crystal graphite in high magnetic fields at low temperatures appears to be one of such phase transitions. In an earlier paper, we have investigated the amount of the change of the magnetoresistance at the anomaly in pulsed high magnetic fields. In this paper, we investigate the Hall effect and the A. C. magnetoresistance in higher fields.

AB - Electronic states in solids under extremely high magnetic fields are of interest in relation to a phase transition such as the Wigner crystallization and the charge density wave (CDW) transition. An anomaly recently discovered in the magnetoresistance in single crystal graphite in high magnetic fields at low temperatures appears to be one of such phase transitions. In an earlier paper, we have investigated the amount of the change of the magnetoresistance at the anomaly in pulsed high magnetic fields. In this paper, we investigate the Hall effect and the A. C. magnetoresistance in higher fields.

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M3 - Conference contribution

AN - SCOPUS:0022247799

SN - 0387961089

SP - 973

EP - 976

BT - Unknown Host Publication Title

A2 - Chadi, James D.

A2 - Harrison, Walter A.

PB - Springer Verlag

ER -

MAGNETO-TRANSPORT AND ELECTRONIC PHASE TRANSITION IN GRAPHITE IN HIGH MAGNETIC FIELDS.

Abstract

ASJC Scopus subject areas

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