Monolayer amorphous carbon exhibits Anderson criticality at the band center due to topological disorder, with multifractal wavefunctions obeying the scaling relation eta equals negative Delta two, confirmed by atomic-resolution measurements and tight-binding calculations.
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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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Quantum Criticality in Monolayer Amorphous Carbon
Monolayer amorphous carbon exhibits Anderson criticality at the band center due to topological disorder, with multifractal wavefunctions obeying the scaling relation eta equals negative Delta two, confirmed by atomic-resolution measurements and tight-binding calculations.
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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.