Empirical scaling across materials reveals a universal bound on microwave dissipation tied to superfluid density and attributed to trapped nonequilibrium quasiparticles.
Magnetic penetration depth of Aluminum thin films,
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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.
Rotation of a thin superconducting cylinder increases critical temperature by decoupling normal electrons to store rotational energy in a self-generated magnetic field.
citing papers explorer
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Universal bound on microwave dissipation in superconducting circuits
Empirical scaling across materials reveals a universal bound on microwave dissipation tied to superfluid density and attributed to trapped nonequilibrium quasiparticles.
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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.
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Enhanced Condensation Through Rotation
Rotation of a thin superconducting cylinder increases critical temperature by decoupling normal electrons to store rotational energy in a self-generated magnetic field.