Abstract
Interlayer vortex decoupling is directly observed as a function of temperature and applied magnetic field via electronic transport perpendicular to the layers in synthetic MoGe/Ge multilayers. Below the decoupling temperature T D, the resistivity anisotropy collapses and striking nonlinearities appear in the perpendicular transport. In contrast, no corresponding nonlinearities appear for the in-plane transport, and the in-plane resistance remains finite below T D. The observed behavior at T D is inconsistent with a vortex melting transition.
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