Experimental realization of large-scale U(1) quantum spin liquid regions in a 2D analog quantum simulator using ultracold atoms, with evidence from Gauss-law compliance, pinch-point correlations, and many-body coherence over ~100 sites.
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First experimental measurement of the D1 magic wavelength in 40K at 1227.54(3) nm via tunable optical tweezer loss spectroscopy.
Constructive protocols prove that arbitrary fermionic quantum operations are achievable with global controls in optical lattice Fermi-Hubbard systems.
Compact in-series 2D MOTs achieve record Li-6 flux of 6.6e9 atoms/s and Rb-87 flux of 2.3e9 atoms/s inside a 55x65x70 cm3 chamber.
citing papers explorer
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Dynamical preparation of U(1) quantum spin liquids in an analogue quantum simulator
Experimental realization of large-scale U(1) quantum spin liquid regions in a 2D analog quantum simulator using ultracold atoms, with evidence from Gauss-law compliance, pinch-point correlations, and many-body coherence over ~100 sites.
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Experimental Determination of the $D1$ Magic Wavelength for $^{40}$K
First experimental measurement of the D1 magic wavelength in 40K at 1227.54(3) nm via tunable optical tweezer loss spectroscopy.
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Programmable Fermionic Quantum Processors with Globally Controlled Lattices
Constructive protocols prove that arbitrary fermionic quantum operations are achievable with global controls in optical lattice Fermi-Hubbard systems.
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High-flux cold lithium-6 and rubidium-87 atoms from compact two-dimensional magneto-optical traps
Compact in-series 2D MOTs achieve record Li-6 flux of 6.6e9 atoms/s and Rb-87 flux of 2.3e9 atoms/s inside a 55x65x70 cm3 chamber.