Test Of Nonlocal Energy Alteration Between Two Quantum Memories Jianpeng Dou by Jian-peng Dou, 1, 2 Feng Lu, 1, 2 Hao Tang, 1, 2 And Xian-min Jin 1, 2ntegrated Quantum Information Technologies (iqit), School Of Physic instant download after payment.

When two particles are spin entangled, one may exhibit behavior that suggests its spin can nonlocallyinfluence the spin of the other. This implies that the energy of the latter particle can be altered by anonlocal quantum correlation, without enabling any form of superluminal communication. This energyalteration, however, remains to be experimentally testified. To test this phenomenon, we constructan incomplete Mach-Zehnder interferometer utilizing two quantum memories. The Stokes photongenerated by the quantum memories serves as the first particle, while the atomic excitation stored withinthe memories acts as the second particle. Our results demonstrate that if the de Broglie–Bohminterpretation is realistic, the trajectory of the Stokes photon can be nonlocally influenced by a slightprobe of the atomic excitation. Conversely, the position of the atomic excitation, as well as the energyℏωhf it carries, can also be nonlocally altered by controlling the Stokes photon. These findingsunderscore the continued relevance of nonlocality in hidden variable theories, consistent with Bell’stheorem and recent experimental validations, while making clear that such phenomena do not violate theprinciples of relativity.