Abstract
We propose a qubit-environment entanglement measure which is tailored for evolutions that lead to pure dephasing of the qubit, such as are abundant in solid state scenarios. The measure can be calculated directly form the density matrix without minimization of any kind. In fact it does not require the knowledge of the full density matrix, and it is enough to know the initial qubit state and the states of the environment conditional on qubit pointer states. This yields a computational advantage over standard entanglement measures, which becomes large when there are no correlations between environmental components in the conditional environmental states. In contrast to all other measures of mixed state entanglement, the measure has a straightforward physical interpretation directly linking the amount of information about the qubit state which is contained in the environment to the amount of qubit-environmnent entanglement. This allows for a direct extension of the pure state interpretation of entanglement generated during pure dephasing to mixed states, even though pure-state conclusions about qubit decoherence are not transferable.
Highlights
Entanglement for mixed states is hard to understand on an intuitive level
In the case of pure QE states, where the qubit and environment interact in such a way that the qubit state undergoes pure dephasing [the interaction is described by a Hamiltonian that is of the type given by Eq (2)], there exists a one-to-one correlation between qubit-environment entanglement (QEE), qubit decoherence, and the amount of “which way” information about the qubit state that has been transferred into the environment [8,9]
The form of the pure dephasing (PD) entanglement measure (9) directly links the amount of QEE present in the system with the fidelity between the conditional environmental states, which quantifies how much information about the system state was transferred into the environment, normalized by the amount of information present in the initial qubit state to be transferred
Summary
Entanglement for mixed states is hard to understand on an intuitive level. Already the notion of pure-state entanglement [1,2] is very abstract, but still it translates into the existence of information about the joint system state, which is not contained in states describing each of the subsystems separately. In system-environment evolutions which lead to pure dephasing (PD) of the system, pure-state entanglement has a meaningful interpretation Entanglement, which in this case is directly linked to system decoherence, describes the amount of information about the system state which can be extracted from the environment [8,9,10]. In contrast to all other measures of mixed-state entanglement, the measure has a straightforward physical interpretation, directly linking information about the qubit state which is contained in the environment to QEE. This means that the pure-state interpretation of entanglement for PD evolutions [8,9] can be directly extended to mixed states, even though the link between entanglement and decoherence cannot [11,12,13].
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