Observation of a subgap density of states in superconductor-normal metal bilayers in the Cooper limit
Abstract
We present transport and tunneling measurements of Pb-Ag bilayers with thicknesses, dPb and dAg, that are much less than the superconducting coherence length. The transition temperature, Tc, and energy gap, , in the tunneling Density of States (DOS) decrease exponentially with dAg at fixed dPb. Simultaneously, a DOS that increases linearly from the Fermi energy grows and fills nearly 40% of the gap as Tc is 1/10 of Tc of bulk Pb. This behavior suggests that a growing fraction of quasiparticles decouple from the superconductor as Tc goes to 0. The linear dependence is consistent with the quasiparticles becoming trapped on integrable trajectories in the metal layer.
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