Testing Real Quantum Theory in an Optical Quantum Network
Physical Review Letters 128(4)
Article 2022 English
Authors
ZL
Zheng-Da Li
YM
Ya-Li Mao
MW
Mirjam Weilenmann
Abstract
1 min read
Quantum theory is commonly formulated in complex Hilbert spaces. However, the question of whether complex numbers need to be given a fundamental role in the theory has been debated since its pioneering days. Recently it has been shown that tests in the spirit of a Bell inequality can reveal quantum predictions in entanglement swapping scenarios that cannot be modeled by the natural real-number analog of standard quantum theory. Here, we tailor such tests for implementation in state-of-the-art photonic systems. We experimentally demonstrate quantum correlations in a network of three parties and two independent EPR sources that violate the constraints of real quantum theory by over 4.5 standard deviations, hence disproving real quantum theory as a universal physical theory.
Zheng-Da Li, Ya-Li Mao, Mirjam Weilenmann, Armin Tavakoli, Hu Chen, Lixin Feng, Sheng-Jun Yang, Marc-Olivier Renou, David Trillo, Lê Phuc Thinh, Nicolas Gisin, Antonio Acín, Miguel Navascués, Zizhu Wang, Jingyun Fan
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