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Electrical analogue of one-dimensional and quasi-one-dimensional Aubry–André–Harper lattices

Sudin Ganguly, Santanu K. Maiti

2023Scientific Reports10 citationsDOIOpen Access PDF

Abstract

This work explores the potential for achieving correlated disorder in electrical circuits by utilizing reactive elements. By establishing a direct correspondence between the tight-binding Hamiltonian and the admittance matrix of the circuit, a novel approach is presented. The localization phenomena within the circuit are investigated through the analysis of the two-port impedance. To introduce correlated disorder, the Aubry-André-Harper (AAH) model is employed. Both one-dimensional and quasi-one-dimensional AAH structures are examined and effectively mapped to their tight-binding counterparts. Notably, transitions from a high-conducting phase to a low-conducting phase are observed in these circuits, highlighting the impact of correlated disorder.

Topics & Concepts

AdmittanceElectronic circuitHamiltonian (control theory)Electrical impedanceTight bindingAdmittance parametersElectrical networkPhysicsCondensed matter physicsMathematicsComputer scienceVoltageElectronic structureQuantum mechanicsMathematical optimizationQuantum and electron transport phenomenaGraphene research and applicationsTopological Materials and Phenomena
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