Two-dimensional noncommutative atom gas with the Anandan interaction

Abstract: Landau like quantization of the Anandan system in a special electromagnetic field is studied. Unlike the cases of the AC system and the HMW system, the torques of the system on the magnetic dipole and the electric dipole don't vanish. By constructing Heisenberg algebra, the Landau analog levels and eigenstates on commutative space, NC space and NC phase space are obtained respectively. By using the coherent state method, some statistical properties of such free atom gas are studied and the expressions of some … Show more

“…[5][6][7] Although noncommutativity embodies a puzzle piece in the high-energy scenario, 8-10 great interest has also been addressed to its implications on condensedmatter physics. [11][12][13][14][15][16][17] In particular, the NC version of quantum mechanics 11,18,19 has been extensively explored over the past few years. Traces of noncommutativity have been studied, for instance, in the hydrogen atom, 11,16,17,20 quantum Hall effect, 15,21,22 Aharonov-Bohm effect, [23][24][25] graphene, 13 and even in quantum information theory.…”

Noncommutative Brownian motion

“…[5][6][7] Although noncommutativity embodies a puzzle piece in the high-energy scenario, 8-10 great interest has also been addressed to its implications on condensedmatter physics. [11][12][13][14][15][16][17] In particular, the NC version of quantum mechanics 11,18,19 has been extensively explored over the past few years. Traces of noncommutativity have been studied, for instance, in the hydrogen atom, 11,16,17,20 quantum Hall effect, 15,21,22 Aharonov-Bohm effect, [23][24][25] graphene, 13 and even in quantum information theory.…”

Noncommutative Brownian motion