Related papers: Direct Manipulation of quantum entanglement from the non-Hermitian nature of light-matter interaction

Direct Manipulation of quantum entanglement from the non-Hermitian nature of light-matter interaction

URL: http://arxiv.org/abs/2311.18229v1
Date: Thu, 30 Nov 2023 03:52:11 GMT
Title: Direct Manipulation of quantum entanglement from the non-Hermitian nature of light-matter interaction
Authors: Kangkang Li, Yin Cai, Jin Yan, Zhou Feng, Fu Liu, Lei Zhang, Feng Li, Yanpeng Zhang
Abstract summary: We report the demonstration of exceptional point (EP) in biphotons by measuring the light-atom interaction as a natural non-Hermitian system. Such biphoton correlation is tuned within an unprecedented large range from Rabi oscillation to antibunching-exponential-decay. Our results provide a unique method to realize the controllability of natural non-Hermitian processes without the assistance of artificial photonic structures.
Score: 7.106490464673198
License: http://creativecommons.org/licenses/by-nc-sa/4.0/
Abstract: Biphoton process is an essential benchmark for quantum information science and technologies, while great efforts have been made to improve the coherence of the system for better quantum correlations. Nevertheless, we find that the non-Hermitian features induced by the atomic quantum interference could be well employed for the direct control of entanglement. We report the demonstration of exceptional point (EP) in biphotons by measuring the light-atom interaction as a natural non-Hermitian system, in which the electromagnetically induced transparency regime provides a powerful mechanism to precisely tune the non-Hermitian coupling strength. Such biphoton correlation is tuned within an unprecedented large range from Rabi oscillation to antibunching-exponential-decay, also indicating high-dimensional entanglement within the strong and weak light-matter coupling regimes. The EP at the transition point between the two regimes is clearly observed with the biphoton quantum correlation measurements, exhibiting a single exponential decay and manifesting the coalesced single eigenstate. Our results provide a unique method to realize the controllability of natural non-Hermitian processes without the assistance of artificial photonic structures, and paves the way for quantum control by manipulating the non-Hermitian features of the light-matter interaction.

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