An all-optical beat-note lattice technique isolates single- and bilayer dipolar quantum gases at the microscope focal plane via selective parametric heating.
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A 1D Mott insulator exhibits persistent, strengthening interference peaks and oscillatory exponentially decaying coherence across lattice sites, matching QMC simulations.
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Site-selective preparation of two-dimensional dipolar quantum gases in an optical beat-note lattice
An all-optical beat-note lattice technique isolates single- and bilayer dipolar quantum gases at the microscope focal plane via selective parametric heating.
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The wave nature of a Mott insulator
A 1D Mott insulator exhibits persistent, strengthening interference peaks and oscillatory exponentially decaying coherence across lattice sites, matching QMC simulations.