Uncorrelated hopping disorder in the generalized Aubry-André model enhances localization and turns the transition into a crossover, while spatially correlated disorder causes partial delocalization near strong bonds, as shown in momentum-space lattice experiments with 87Rb atoms.
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Large-scale full-wave simulations show non-exponential transmission decay, isolated resonances with Thouless conductance below 1, and non-propagating intensity clusters as evidence for 3D Anderson localization of light in disordered dielectric media.
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Localization with Hopping Disorder in Quasi-periodic Synthetic Momentum Lattice
Uncorrelated hopping disorder in the generalized Aubry-André model enhances localization and turns the transition into a crossover, while spatially correlated disorder causes partial delocalization near strong bonds, as shown in momentum-space lattice experiments with 87Rb atoms.
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3D Anderson localization of light in disordered systems of dielectric particles
Large-scale full-wave simulations show non-exponential transmission decay, isolated resonances with Thouless conductance below 1, and non-propagating intensity clusters as evidence for 3D Anderson localization of light in disordered dielectric media.