A dimer atomic lattice with staggered local losses enables quantum synchronization under local dissipation, favored by increased spin detuning and characterized via multiple measures.
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Three- and four-level systems pumped by lasers can cool microwave resonators below liquid helium temperature by absorbing thermal photons, with analytical cooling limits obtained via adiabatic elimination.
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Quantum synchronization in dimer atomic lattices
A dimer atomic lattice with staggered local losses enables quantum synchronization under local dissipation, favored by increased spin detuning and characterized via multiple measures.
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Reducing thermal noises by quantum refrigerators
Three- and four-level systems pumped by lasers can cool microwave resonators below liquid helium temperature by absorbing thermal photons, with analytical cooling limits obtained via adiabatic elimination.