A scheme for direct detection of qubit-environment entanglement generated during qubit pure dephasing

We propose a scheme for the detection of qubit-environment entanglement which requires only operations and measurements on the qubit, all within reach of current experimental state-of-the-art. The scheme works for any type of interaction which leads to pure dephasing of the qubit as long as the initial qubit state is pure. The scheme is direct in the sense that it allows the detection of entanglement present in the system at time tau after the initialization of the qubit in a superposition state. It requires a measurement on the qubit at time tau and a comparison of the post-measurement evolution to the evolution obtained by a modified scheme. It becomes particularly simple when one of the qubit states is neutral with respect to the environment, such as in case of the most common choice of the NV center spin qubit or for excitonic charge qubits, when the environment is initially at thermal equilibrium. In this case, the post-measurement evolution needs to be compared only to the standard decoherence which is obtained without any qubit manipulation after the preparation of the initial state.

Automated summary

A scheme for detecting qubit-environment entanglement is proposed, which only requires operations and measurements on the qubit and works for any type of interaction leading to pure dephasing, as long as the initial qubit state is pure. The detection can be done at a certain time tau after the qubit initialization in a superposition state, by comparing the post-measurement evolution to a modified evolution scheme.