Using torsion to manipulate spin currents

Sébastien Fumeron; Bertrand Berche; Ernesto Medina; Fernando A.N. Santos; Fernando Moraes

doi:10.1209/0295-5075/117/47007

Using torsion to manipulate spin currents

Sébastien Fumeron, Bertrand Berche, Ernesto Medina, Fernando A.N. Santos, Fernando Moraes

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3 Citas (Scopus)

Resumen

We address the problem of quantum particles moving on a manifold characterised by the presence of torsion along a preferential axis. In fact, such a torsion may be taylored by the presence of a single screw dislocation, whose Burgers vector measures the torsion amplitude. The problem, first treated in the relativistic limit describing fermions that couple minimally to torsion, is then analysed in the Pauli limit. We show that torsion induces a geometric potential and also that it couples generically to the phase of the wave function, giving rise to the possibility of using torsion to manipulate spin currents in the case of spinor wave functions. These results emerge as an alternative strategy for using screw dislocations in the design of spintronic-based devices.

Idioma original	Inglés
Número de artículo	47007
Publicación	Europhysics Letters
Volumen	117
N.º	4
DOI	https://doi.org/10.1209/0295-5075/117/47007
Estado	Publicada - feb. 2017
Publicado de forma externa	Sí

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abstract = "We address the problem of quantum particles moving on a manifold characterised by the presence of torsion along a preferential axis. In fact, such a torsion may be taylored by the presence of a single screw dislocation, whose Burgers vector measures the torsion amplitude. The problem, first treated in the relativistic limit describing fermions that couple minimally to torsion, is then analysed in the Pauli limit. We show that torsion induces a geometric potential and also that it couples generically to the phase of the wave function, giving rise to the possibility of using torsion to manipulate spin currents in the case of spinor wave functions. These results emerge as an alternative strategy for using screw dislocations in the design of spintronic-based devices.",

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T1 - Using torsion to manipulate spin currents

AU - Fumeron, Sébastien

AU - Berche, Bertrand

AU - Medina, Ernesto

AU - Santos, Fernando A.N.

AU - Moraes, Fernando

PY - 2017/2

Y1 - 2017/2

N2 - We address the problem of quantum particles moving on a manifold characterised by the presence of torsion along a preferential axis. In fact, such a torsion may be taylored by the presence of a single screw dislocation, whose Burgers vector measures the torsion amplitude. The problem, first treated in the relativistic limit describing fermions that couple minimally to torsion, is then analysed in the Pauli limit. We show that torsion induces a geometric potential and also that it couples generically to the phase of the wave function, giving rise to the possibility of using torsion to manipulate spin currents in the case of spinor wave functions. These results emerge as an alternative strategy for using screw dislocations in the design of spintronic-based devices.

AB - We address the problem of quantum particles moving on a manifold characterised by the presence of torsion along a preferential axis. In fact, such a torsion may be taylored by the presence of a single screw dislocation, whose Burgers vector measures the torsion amplitude. The problem, first treated in the relativistic limit describing fermions that couple minimally to torsion, is then analysed in the Pauli limit. We show that torsion induces a geometric potential and also that it couples generically to the phase of the wave function, giving rise to the possibility of using torsion to manipulate spin currents in the case of spinor wave functions. These results emerge as an alternative strategy for using screw dislocations in the design of spintronic-based devices.

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DO - 10.1209/0295-5075/117/47007

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SN - 0295-5075

VL - 117

JO - Europhysics Letters

JF - Europhysics Letters

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Using torsion to manipulate spin currents

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