Wave Function Renormalization Effects in Resonantly Enhanced Tunneling

D. Ciampini; E. Arimondo; F. V. Pepe; G. Florio; H. Lignier; N. L\"orch; O. Morsch; P. Facchi; R. Mannella; S. Pascazio

arxiv: 1201.6286 · v1 · pith:6V6PUQHVnew · submitted 2012-01-30 · 🪐 quant-ph · cond-mat.quant-gas

Wave Function Renormalization Effects in Resonantly Enhanced Tunneling

N. L\"orch , F. V. Pepe , H. Lignier , D. Ciampini , R. Mannella , O. Morsch , E. Arimondo , P. Facchi

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G. Florio S. Pascazio S. Wimberger

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

keywords decaylatticeenhancedfunctionopticalrenormalizationresonantlytunneling

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We study the time evolution of ultra-cold atoms in an accelerated optical lattice. For a Bose- Einstein condensate with a narrow quasi-momentum distribution in a shallow optical lattice the decay of the survival probability in the ground band has a step-like structure. In this regime we establish a connection between the wave function renormalization parameter Z introduced in [Phys. Rev. Lett. 86, 2699 (2001)] to characterize non-exponential decay and the phenomenon of resonantly enhanced tunneling, where the decay rate is peaked for particular values of the lattice depth and the accelerating force.

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Wave Function Renormalization Effects in Resonantly Enhanced Tunneling

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