Unitality Conditions on Subsystems in Quantum Dynamics

Mukhopadhyay, Anumita; Roy, Shibdas; Pati, Arun Kumar

Unitality Conditions on Subsystems in Quantum Dynamics

Feb 17, 2025

6 pages

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2502.11956 [quant-ph]

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Abstract: (arXiv)

It is known that non-unital noise such as the amplitude damping can sometimes increase quantum correlations, while unital noise such as the dephasing usually decreases quantum correlations. It is, therefore, important to delineate the conditions, when noise can enhance the quantumness of the system. Here, we show that if the noise acting on the system is unital (non-unital), then the noise acting on the environment must also be unital (non-unital), for the evolution to be unitary in the joint system-environment space. For example, if the first two qubits are treated as system and the third qubit is treated as environment, then both the system and the environment evolve unitally in case of a three-qubit GHZ state, and both of them evolve non-unitally in case of a three-qubit W state. Our result may be of interest in quantum information, and we anticipate it to be useful in various contexts, such as to better tackle noise in quantum computing and quantum information processing.

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6 pages, 1 figure

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