We propose a spatial analog of the Berry's phase mechanism for the coherent manipulation of states of nonrelativistic massive particles moving in a two-dimensional landscape. In our construction the temporal modulation of the system Hamiltonian is replaced by a modulation of the confining potential along the transverse direction of the particle propagation. By properly tuning the model parameters the resulting scattering input-output relations exhibit a Wilczek-Zee non-Abelian phase shift contribution that is intrinsically geometrical, hence insensitive to the specific details of the potential landscape. A theoretical derivation of the effect is provided together with practical examples.
Geometric Phase through Spatial Potential Engineering
Cusumano S.;De Pasquale A.;Giovannetti V.
2020
Abstract
We propose a spatial analog of the Berry's phase mechanism for the coherent manipulation of states of nonrelativistic massive particles moving in a two-dimensional landscape. In our construction the temporal modulation of the system Hamiltonian is replaced by a modulation of the confining potential along the transverse direction of the particle propagation. By properly tuning the model parameters the resulting scattering input-output relations exhibit a Wilczek-Zee non-Abelian phase shift contribution that is intrinsically geometrical, hence insensitive to the specific details of the potential landscape. A theoretical derivation of the effect is provided together with practical examples.| File | Dimensione | Formato | |
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1911.05842.pdf
accesso aperto
Tipologia:
Accepted version (post-print)
Licenza:
Solo Lettura
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4.15 MB
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4.15 MB | Adobe PDF | |
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PhysRevLett.124.190401.pdf
accesso aperto
Tipologia:
Published version
Licenza:
Solo Lettura
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1 MB
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Adobe PDF
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1 MB | Adobe PDF |
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