Functional approach to squeezed states in non commutative theories

Lubo, Musongela

doi:10.1088/1126-6708/2004/05/045

Cited by 4 publications

(1 citation statement)

References 28 publications

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“…The effects of the spacetime noncommutativity has also been studied in the context of non-relativistic quantum mechanics, see f.e. [26,27,28,29,30].…”

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confidence: 99%

Scattering of spin 1/2 particles by the 2+1 dimensional noncommutative Aharonov-Bohm potential

Ferrari,

Gomes,

Stechhahn

2007

Preprint

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In this work we study modifications in the Aharonov-Bohm effect for relativistic spin 1/2 particles due to the noncommutativity of spacetime in 2 + 1 dimensions. The noncommutativity gives rise to a correction to the Aharonov-Bohm potential which is highly singular at the origin, producing divergences in a perturbative expansion around the usual solution of the free Dirac equation. This problem is surmounted by using a perturbative expansion around the exact solution of the commutative Aharonov-Bohm problem. We calculate, in this setting, the scattering amplitude and the corrections to the differential and total cross sections for a spin 1/2 particle, in the small-flux limit.

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“…The effects of the spacetime noncommutativity has also been studied in the context of non-relativistic quantum mechanics, see f.e. [26,27,28,29,30].…”

mentioning

confidence: 99%

Scattering of spin 1/2 particles by the 2+1 dimensional noncommutative Aharonov-Bohm potential

Ferrari,

Gomes,

Stechhahn

2007

Preprint

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Coherent states and N dimensional coordinate noncommutativity

Bander

2006

J. High Energy Phys.

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Considering coordinates as operators whose measured values are expectations between generalized coherent states based on the group SO(N, 1) leads to coordinate noncommutativity together with full N dimensional rotation invariance. Through the introduction of a gauge potential this theory can additionally be made invariant under N dimensional translations. Fluctuations in coordinate measurements are determined by two scales. For small distances these fluctuations are fixed at the noncommutativity parameter while for larger distances they are proportional to the distance itself divided by a very large number. Limits on this number will lbe available from LIGO measurements.

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