Jerzy Dajka scite author profile

The time evolution of the trace distance between two states of an open quantum system may increase due to initial system-environment correlations, thus exhibiting a breakdown of distance contractivity of the reduced dynamics. We analyze how the time evolution of the distance depends on the chosen distance measure. Here we elucidate the behavior of the trace distance, the HilbertSchmidt distance, the Bures distance, the Hellinger distance and the quantum Jensen-Shannon divergence for two system-environment setups, namely a qubit bi-linearly coupled to an infinite and a finite size environment with the latter composed of harmonic oscillators.

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Distance growth of quantum states due to initial system-environment correlations

Dajka

Łuczka

2010

Phys. Rev. A

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Intriguing features of the distance between two arbitrary states of an open quantum system are identified that are induced by initial system-environment correlations. As an example, we analyze a qubit dephasingly coupled to a bosonic environment. Within tailored parameter regimes, initial correlations are shown to substantially increase a distance between two qubit states evolving to long-time limit states according to exact non-Markovian dynamics. It exemplifies the breakdown of the distance contractivity of the reduced dynamics.

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Non-Markovian entanglement evolution of two uncoupled qubits

2008

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Jerzy Dajka

Distance between quantum states in the presence of initial qubit-environment correlations: A comparative study

Distance growth of quantum states due to initial system-environment correlations

Non-Markovian entanglement evolution of two uncoupled qubits

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