A nonlinear orbital magnetoelectric effect is derived for centrosymmetric materials via extended semiclassical theory, separating intrinsic and extrinsic parts with distinct relaxation-time scalings and reduced symmetry constraints in 2D.
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Experimental observation of gate-tunable Josephson diode effect in two adjacent junctions in MATBG attributed to kinetic inductance and non-uniform supercurrent distribution shaped by microscopic inhomogeneities.
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Geometry-Driven Nonlinear Orbital Magnetoelectric Effect
A nonlinear orbital magnetoelectric effect is derived for centrosymmetric materials via extended semiclassical theory, separating intrinsic and extrinsic parts with distinct relaxation-time scalings and reduced symmetry constraints in 2D.
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Gate-tunable Josephson diodes in magic-angle twisted bilayer graphene
Experimental observation of gate-tunable Josephson diode effect in two adjacent junctions in MATBG attributed to kinetic inductance and non-uniform supercurrent distribution shaped by microscopic inhomogeneities.