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Paper   IPM / Physic / 17104
School of Physics
  Title:   Local quantum uncertainty and quantum interferometric power in an anisotropic two-qubit system
  Author(s): 
1.  N. Zidan
2.  A. Ur Rahman
3.  S. Haddadi
4.  A. Czerwinski
5.  S. Haseli
  Status:   Published
  Journal: Universe
  Vol.:  9(1)
  Year:  2023
  Pages:   5
  Supported by:  IPM
  Abstract:
Investigating the favorable configurations for non-classical correlations preservation has remained a hotly debated topic for the last decade. In this regard, we present a two-qubit Heisenberg spin chain system exposed to a time-dependent external magnetic field. The impact of various crucial parameters, such as initial strength and angular frequency of the external magnetic field along with the state’s purity and anisotropy of the spin-spin on the dynamical behavior of quantum correlations are considered. We utilize local quantum uncertainty (LQU) and quantum interferometric power (QIP) to investigate the dynamics of quantum correlations. We show that under the critical angular frequency of the external magnetic field and the spin-spin anisotropy, quantum correlations in the system can be successfully preserved. LQU and QIP suffer a drop as the interaction between the system and field is initiated, however, are quickly regained by the system. This tendency is confirmed by computing a measure of non-classical correlations according to the Clauser–Horne–Shimony–Holt inequality. Notably, the initial and final preserved levels of quantum correlations are only varied when variation is caused in the state’s purity.

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