Creation of entangled atomic states by an analogue of the Dynamical Casimir Effect

A. Polls; A. Sala; B. Juli\'a-D\'iaz; B. L\"ucke; C. Klempt; J. Peise; K. Lange; L. Santos; T. Gruber; W. Ertmer

arxiv: 1805.02560 · v2 · pith:LLQMTVZDnew · submitted 2018-05-07 · 🪐 quant-ph · cond-mat.quant-gas

Creation of entangled atomic states by an analogue of the Dynamical Casimir Effect

K. Lange , J. Peise , B. L\"ucke , T. Gruber , A. Sala , A. Polls , W. Ertmer , B. Juli\'a-D\'iaz

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L. Santos C. Klempt

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classification 🪐 quant-ph cond-mat.quant-gas

keywords boundaryconditionscreatedeffectentangledexcitationsinitiallyquantum

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If the boundary conditions of the quantum vacuum are changed in time, quantum field theory predicts that real, observable particles can be created in the initially empty modes. Here, we realize this effect by changing the boundary conditions of a spinor Bose-Einstein condensate, which yields a population of initially unoccupied spatial and spin excitations. We prove that the excitations are created as entangled excitation pairs by certifying continuous-variable entanglement within the many-particle output state.

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Creation of entangled atomic states by an analogue of the Dynamical Casimir Effect

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