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Multiflavor Mott insulators in quantum materials and ultracold atoms
Mott insulators with large and active (or multiflavor) local Hilbert spaces widely occur in quantum materials and ultracold atomic systems, and are...
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Quantum time reflection and refraction of ultracold atoms
Time reflection and refraction are temporal analogies of the spatial boundary effects derived from Fermat’s principle. They occur when classical...
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Quantum simulations with ultracold atoms in optical lattices: past, present and future
Ultracold atoms in optical lattices have been celebrated as the representative of the quantum simulator, which is a subcategory of a quantum computer...
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Real-space detection and manipulation of topological edge modes with ultracold atoms
The bulk–boundary correspondence, a fundamental principle relating the topological invariants of the bulk to the presence of edge states, is modified...
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Bichromatic state-dependent disordered potential for Anderson localization of ultracold atoms
AbstractThe ability to load ultracold atoms at a well-defined energy in a disordered potential is a crucial tool to study quantum transport, and in...
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Quantum emulation of topological magneto-optical effects using ultracold atoms
Magneto-optical effect is a fundamental but broad concept in magnetic mediums. Here we propose a scheme for its quantum emulation using ultracold...
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Ultracold chemistry as a testbed for few-body physics
Ultracold atoms, molecules and ions provide a unique playground to explore chemistry at ultracold temperatures. In this Review, we discuss what makes...
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Quantum state manipulation and cooling of ultracold molecules
In recent years, an increasingly large variety of molecular species have been successfully cooled to low energies, and innovative techniques continue...
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Magnetic trap** of ultracold molecules at high density
Trap** ultracold molecules in conservative traps is essential for multiple applications, including quantum-state-controlled chemistry, quantum...
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Features of the Motion of Ultracold Atoms in Quasiperiodic Potentials
AbstractWe consider here quasiperiodic potentials on the plane, which can serve as a “transitional link” between ordered (periodic) and chaotic...
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Quantum computation and quantum simulation with ultracold molecules
Ultracold molecules confined in optical lattices or tweezer traps can be used to process quantum information and simulate the behaviour of many-body...
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Interaction-induced topological transition in spin-orbit coupled ultracold bosons
Recent experiments in ultracold atoms have reported the realization of quantum anomalous Hall phases in spin-orbit coupled systems. Motivated by such...
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Second sound with ultracold atoms: a brief review
We briefly review the research on second sound in ultracold atomic physics, with emphasis on strongly interacting unitary Fermi gases with infinitely...
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Ultracold Rydberg Atom–Atom Interaction
Rydberg excitations have had a substantial impact on the development of atomic and molecular physics. Advances in cooling and trap** of atoms and... -
Scattering- and Binding Properties of Two 133Cs Atoms in Free Space and in an Ultracold, Low-Dense 133Cs Vapor
The scattering- and bound-state properties of two 133 Cs atoms, in free space as well as in low-dense Cs vapor, are calculated for both electronic...
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Quantum science with optical tweezer arrays of ultracold atoms and molecules
Single atoms and molecules can be trapped in tightly focused beams of light that form ‘optical tweezers’, affording exquisite capabilities for the...
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Flavor Degeneracy and Effects of Disorder in Ultracold Atom Systems
Cold atoms in optical lattices offer an exciting new laboratory where quantum many-body phenomena can be realized in a highly controlled way. They... -
Atom Chip and Diffraction Grating for the Laser Cooling of Ytterbium Atoms
The possibility of using an atom chip and a diffraction grating to form a compact magneto-optical trap for ytterbium atoms, which can be used to...