Related papers: Classification and measurement of multipartite entanglement by reconstruction of correlation tensors on an NMR quantum processor

Classification and measurement of multipartite entanglement by reconstruction of correlation tensors on an NMR quantum processor

URL: http://arxiv.org/abs/2206.05755v1
Date: Sun, 12 Jun 2022 14:54:21 GMT
Title: Classification and measurement of multipartite entanglement by reconstruction of correlation tensors on an NMR quantum processor
Authors: Vaishali Gulati and Arvind and Kavita Dorai
Abstract summary: We introduce a protocol to classify three-qubit pure states into different entanglement classes and implement it on an NMR quantum processor. The protocol is designed in such a way that the experiments performed to classify the states can also measure the amount of entanglement present in the state.
Score: 4.291616110077346
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We introduce a protocol to classify three-qubit pure states into different entanglement classes and implement it on an NMR quantum processor. The protocol is designed in such a way that the experiments performed to classify the states can also measure the amount of entanglement present in the state. The classification requires the experimental reconstruction of the correlation matrices using 13 operators. The rank of the correlation matrices provide the criteria to classify the state in one of the five classes, namely, separable, biseparable (of three types), and genuinely entangled (of two types, GHZ and W). To quantify the entanglement, a concurrence function is defined which measures the global entanglement present in the state, using the same 13 operators. Global entanglement is zero for separable states and non-zero otherwise. We demonstrate the efficacy of the protocol by implementing it on states chosen from each of the six inequivalent (under stochastic local operations and classical communication) classes for three qubits. We also implement the protocol on states picked at random from the state space of three-qubit pure states.

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