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Inhomogeneities and impurities in a dense one-dimensional Rydberg lattice gas

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arxiv 1304.5182 v1 pith:GAD6HY5S submitted 2013-04-18 cond-mat.quant-gas physics.atom-phquant-ph

Inhomogeneities and impurities in a dense one-dimensional Rydberg lattice gas

classification cond-mat.quant-gas physics.atom-phquant-ph
keywords rydberglaserlatticeapplieddensefieldsgroundmany-body
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We consider a dense one-dimensional laser-driven Rydberg lattice gas with perfect nearest-neighbor blockade. The ground state of this system can be found analytically in certain parameter regimes even when the applied fields are inhomogeneous in space. We will use this unique feature to investigate the effect of an impurity - introduced by the local variation of the laser parameters - on the correlations of the many-body ground state. Moreover, we explore the role of a staggered laser field which alternates from site to site thereby breaking the sublattice symmetry. We demonstrate that this technique, which can be applied experimentally, reveals insights into the role of long-range interactions on the critical properties of a Rydberg gas. Our work highlight novel possibilities for the exploration of many-body physics in Rydberg lattice gases based on locally tuneable laser fields.

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