| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1591364 | Solid State Communications | 2015 | 6 Pages |
•Quantum correlation in quantum solid states.•Photonic band gab effect (PBG) on the quantum correlations.•Anisotropic and isotropic PBG cases.•High values of quantum correlation trapping.•Asymptotic behavior of the quantum correlations under effect of PBD crystal.
The quantum correlations between two independent qubits immersed in an anisotropic and isotropic photonic band-gab (PBG) crystal have been studied without Born or Markovian approximation. We show that the amount of the entanglement and quantum discord between the qubits in the photonic crystal is greatly different from that of qubits in vacuum or that subjected to the usual non-Markovian reservoir. The results also show that, for PBG materials as environment, high values of quantum correlation trapping can be achieved and thus prevention of correlation sudden drop occurs, which seriously enhances the coherence and increase the amount of the correlations. Moreover, we show that the quantum correlations in the isotropic PBG are more easily preserved than that in the anisotropic PBG under the same condition. These features make the quantum systems in PBG materials as a good candidate for implementation of different schemes of quantum optics and information with high performance.
