Experimental test of generalized multipartite entropic uncertainty relations
Zhaoan Wang, Bo-Fu Xie, Fei Ming, Yi‐Tao Wang, Dong Wang, Yu Meng, Zhenghao Liu, Kai Xu, Jian‐Shun Tang, Ye Liu, Chuan‐Feng Li, Guang-Can Guo, Sabre Kais
Abstract
Entropic uncertainty relation (EUR) formulates the restriction of the inherent uncertainty of quantum mechanics from an information-theoretic perspective. A tighter lower bound for uncertainty relations can provide information-theoretic security to quantum communication protocols. Recently, a generalized EUR (GEUR) for the measurement of multiple observables in arbitrary many-body systems has been formulated. Here, we experimentally test this GEUR using a four-photon entangled state with a controllable decoherence channel and show that for the tripartite scenario, the GEUR improves the entropic bound from Renes and Boileau's famous results. As an application, we further demonstrate an improvement of the secure key rate in quantum key distribution from the GEUR. Our results extend the test of EURs into multipartite regimes and may find applications in practical quantum cryptography tasks.