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Competing orders in M-theory: superfluids, stripes and metamagnetism

Competing orders in M-theory: superfluids, stripes and metamagnetism
Competing orders in M-theory: superfluids, stripes and metamagnetism
We analyse the infinite class of d=3 CFTs dual to skew-whiffed AdS_4 X SE_7 solutions of D=11 supergravity at finite temperature and charge density and in the presence of a magnetic field. We construct black hole solutions corresponding to the unbroken phase, and at zero temperature some of these become dyonic domain walls of an Einstein-Maxwell-pseudo-scalar theory interpolating between AdS_4 in the UV and new families of dyonic AdS_2 X R^2 solutions in the IR. The black holes exhibit both diamagnetic and paramagnetic behaviour. We analyse superfluid and striped instabilities and show that for large enough values of the magnetic field the superfluid instability disappears while the striped instability remains. For larger values of the magnetic field there is also a first-order metamagnetic phase transition and at zero temperature these black hole solutions exhibit hyperscaling violation in the IR with dynamical exponent z=3/2 and \theta=-2.
hep-th
1029-8479
Donos, Aristomenis
fa15ede0-056b-49b1-ba6e-be7c6465646b
Gauntlett, Jerome P.
a0caef30-4349-4b5d-be38-6c22cea0e9dc
Sonner, Julian
1d2008de-dbc3-4231-95e6-a3d2ec93d3c1
Withers, Benjamin
e510375b-c5d2-4d5f-bd68-40ace13f0ec9
Donos, Aristomenis
fa15ede0-056b-49b1-ba6e-be7c6465646b
Gauntlett, Jerome P.
a0caef30-4349-4b5d-be38-6c22cea0e9dc
Sonner, Julian
1d2008de-dbc3-4231-95e6-a3d2ec93d3c1
Withers, Benjamin
e510375b-c5d2-4d5f-bd68-40ace13f0ec9

Donos, Aristomenis, Gauntlett, Jerome P., Sonner, Julian and Withers, Benjamin (2012) Competing orders in M-theory: superfluids, stripes and metamagnetism. Journal of High Energy Physics. (doi:10.1007/JHEP03(2013)108).

Record type: Article

Abstract

We analyse the infinite class of d=3 CFTs dual to skew-whiffed AdS_4 X SE_7 solutions of D=11 supergravity at finite temperature and charge density and in the presence of a magnetic field. We construct black hole solutions corresponding to the unbroken phase, and at zero temperature some of these become dyonic domain walls of an Einstein-Maxwell-pseudo-scalar theory interpolating between AdS_4 in the UV and new families of dyonic AdS_2 X R^2 solutions in the IR. The black holes exhibit both diamagnetic and paramagnetic behaviour. We analyse superfluid and striped instabilities and show that for large enough values of the magnetic field the superfluid instability disappears while the striped instability remains. For larger values of the magnetic field there is also a first-order metamagnetic phase transition and at zero temperature these black hole solutions exhibit hyperscaling violation in the IR with dynamical exponent z=3/2 and \theta=-2.

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1212.0871v1
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Published date: 4 December 2012
Additional Information: 33 pages, 11 figures
Keywords: hep-th

Identifiers

Local EPrints ID: 455071
URI: http://eprints.soton.ac.uk/id/eprint/455071
DOI: doi:10.1007/JHEP03(2013)108
ISSN: 1029-8479
PURE UUID: 7bf0ac9e-1d9a-4ec6-a5d4-4c7f39f78851
ORCID for Benjamin Withers: ORCID iD orcid.org/0000-0001-8490-9948

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Date deposited: 08 Mar 2022 17:37
Last modified: 17 Mar 2024 02:27

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Contributors

Author: Aristomenis Donos
Author: Jerome P. Gauntlett
Author: Julian Sonner
Author: Benjamin Withers ORCID iD

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