Phase diagram of the semimetal graphite in the magnetic ultra-quantum limit. / Arnold, Frank; Isidori, Aldo; Kampert, Erik; Yager, Ben; Eschrig, Matthias; Saunders, John.

In: ArXiv.org, Vol. cond-mat.str-el, No. 1411.323v1, 14.11.2014.

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Phase diagram of the semimetal graphite in the magnetic ultra-quantum limit. / Arnold, Frank; Isidori, Aldo; Kampert, Erik; Yager, Ben; Eschrig, Matthias; Saunders, John.

In: ArXiv.org, Vol. cond-mat.str-el, No. 1411.323v1, 14.11.2014.

Research output: Contribution to journalArticle

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@article{447a52e65b2a4a1ba880cb9a2385c93f,
title = "Phase diagram of the semimetal graphite in the magnetic ultra-quantum limit",
abstract = "Strong correlations within the lowest Landau levels of semimetals in their ultra-quantum limit give rise to collective phenomena and topologically non-trivial states. Using state-of-the-art pulsed magnetic fields up to 60 T applied to a high-quality single crystal of graphite, we find a series of field-induced transitions into collinear charge-density wave states. Our analysis establishes the phase diagram of graphite in its ultra-quantum limit. The results imply the existence of a novel topologically-protected chiral edge state at high fields, supporting both charge and spin currents.",
author = "Frank Arnold and Aldo Isidori and Erik Kampert and Ben Yager and Matthias Eschrig and John Saunders",
year = "2014",
month = nov,
day = "14",
language = "English",
volume = "cond-mat.str-el",
journal = "ArXiv.org",
number = "1411.323v1",

}

RIS

TY - JOUR

T1 - Phase diagram of the semimetal graphite in the magnetic ultra-quantum limit

AU - Arnold, Frank

AU - Isidori, Aldo

AU - Kampert, Erik

AU - Yager, Ben

AU - Eschrig, Matthias

AU - Saunders, John

PY - 2014/11/14

Y1 - 2014/11/14

N2 - Strong correlations within the lowest Landau levels of semimetals in their ultra-quantum limit give rise to collective phenomena and topologically non-trivial states. Using state-of-the-art pulsed magnetic fields up to 60 T applied to a high-quality single crystal of graphite, we find a series of field-induced transitions into collinear charge-density wave states. Our analysis establishes the phase diagram of graphite in its ultra-quantum limit. The results imply the existence of a novel topologically-protected chiral edge state at high fields, supporting both charge and spin currents.

AB - Strong correlations within the lowest Landau levels of semimetals in their ultra-quantum limit give rise to collective phenomena and topologically non-trivial states. Using state-of-the-art pulsed magnetic fields up to 60 T applied to a high-quality single crystal of graphite, we find a series of field-induced transitions into collinear charge-density wave states. Our analysis establishes the phase diagram of graphite in its ultra-quantum limit. The results imply the existence of a novel topologically-protected chiral edge state at high fields, supporting both charge and spin currents.

M3 - Article

VL - cond-mat.str-el

JO - ArXiv.org

JF - ArXiv.org

IS - 1411.323v1

ER -