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29 March 2024
 
  » arxiv » quant-ph/0312197

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De Broglie Wavelength of a Nonlocal Four-Photon
Philip Walther ; Jian-Wei Pan ; Markus Aspelmeyer ; Rupert Ursin ; Sara Gasparoni ; Anton Zeilinger ;
Date 24 Dec 2003
Subject quant-ph
AbstractSuperposition is one of the most distinct features of quantum theory and has been demonstrated in numerous realizations of Young’s classical double-slit interference experiment and its analogues. However, quantum entanglement - a significant coherent superposition in multiparticle systems - yields phenomena that are much richer and more interesting than anything that can be seen in a one-particle system. Among them, one important type of multi-particle experiments uses path-entangled number-states, which exhibit pure higher-order interference and allow novel applications in metrology and imaging such as quantum interferometry and spectroscopy with phase sensitivity at the Heisenberg limit or quantum lithography beyond the classical diffraction limit. Up to now, in optical implementations of such schemes lower-order interference effects would always decrease the overall performance at higher particle numbers. They have thus been limited to two photons. We overcome this limitation and demonstrate a linear-optics-based four-photon interferometer. Observation of a four-particle mode-entangled state is confirmed by interference fringes with a periodicity of one quarter of the single-photon wavelength. This scheme can readily be extended to arbitrary photon numbers and thus represents an important step towards realizable applications with entanglement-enhanced performance.
Source arXiv, quant-ph/0312197
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