Super-extended noncommutative Landau problem and conformal symmetry

Pedro D. Alvarez; José L. Cortés; Peter A. Horvthy; Mikhail S. Plyushchay

doi:10.1088/1126-6708/2009/03/034

Super-extended noncommutative Landau problem and conformal symmetry

Pedro D. Alvarez, José L. Cortés, Peter A. Horvthy, Mikhail S. Plyushchay

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

A supersymmetric spin-1/2 particle in the noncommutative plane, subject to an arbitrary magnetic field, is considered, with particular attention paid to the homogeneous case. The system has three different phases, depending on the magnetic field. Due to supersymmetry, the boundary critical phase which separates the sub- and super-critical cases can be viewed as a reduction to the zero-energy eigensubspace. In the sub-critical phase the system is described by the superextension of exotic Newton-Hooke symmetry, combined with the conformal so(2,1) ∼ su(1,1) symmetry; the latter is changed into so(3) ∼ su(2) in the super-critical phase. In the critical phase the spin degrees of freedom are frozen and supersymmetry disappears.

Original language	English
Article number	034
Journal	Journal of High Energy Physics
Volume	2009
Issue number	3
DOIs	https://doi.org/10.1088/1126-6708/2009/03/034
State	Published - 2009
Externally published	Yes

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1088/1126-6708/2009/03/034

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title = "Super-extended noncommutative Landau problem and conformal symmetry",

abstract = "A supersymmetric spin-1/2 particle in the noncommutative plane, subject to an arbitrary magnetic field, is considered, with particular attention paid to the homogeneous case. The system has three different phases, depending on the magnetic field. Due to supersymmetry, the boundary critical phase which separates the sub- and super-critical cases can be viewed as a reduction to the zero-energy eigensubspace. In the sub-critical phase the system is described by the superextension of exotic Newton-Hooke symmetry, combined with the conformal so(2,1) ∼ su(1,1) symmetry; the latter is changed into so(3) ∼ su(2) in the super-critical phase. In the critical phase the spin degrees of freedom are frozen and supersymmetry disappears.",

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AU - Alvarez, Pedro D.

AU - Cortés, José L.

AU - Horvthy, Peter A.

AU - Plyushchay, Mikhail S.

PY - 2009

Y1 - 2009

N2 - A supersymmetric spin-1/2 particle in the noncommutative plane, subject to an arbitrary magnetic field, is considered, with particular attention paid to the homogeneous case. The system has three different phases, depending on the magnetic field. Due to supersymmetry, the boundary critical phase which separates the sub- and super-critical cases can be viewed as a reduction to the zero-energy eigensubspace. In the sub-critical phase the system is described by the superextension of exotic Newton-Hooke symmetry, combined with the conformal so(2,1) ∼ su(1,1) symmetry; the latter is changed into so(3) ∼ su(2) in the super-critical phase. In the critical phase the spin degrees of freedom are frozen and supersymmetry disappears.

AB - A supersymmetric spin-1/2 particle in the noncommutative plane, subject to an arbitrary magnetic field, is considered, with particular attention paid to the homogeneous case. The system has three different phases, depending on the magnetic field. Due to supersymmetry, the boundary critical phase which separates the sub- and super-critical cases can be viewed as a reduction to the zero-energy eigensubspace. In the sub-critical phase the system is described by the superextension of exotic Newton-Hooke symmetry, combined with the conformal so(2,1) ∼ su(1,1) symmetry; the latter is changed into so(3) ∼ su(2) in the super-critical phase. In the critical phase the spin degrees of freedom are frozen and supersymmetry disappears.

KW - Conformal and W Symmetry

KW - Extended Supersymmetry

KW - Non-Commutative Geometry

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VL - 2009

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

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ER -

Super-extended noncommutative Landau problem and conformal symmetry

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