Field-enhanced diamagnetism in intense magnetic field in the pseudogap state of the cuprate $ Bi2Sr2CaCu2O8+δ
Abstract
In hole-doped cuprates, Nernst experiments imply that the superconducting state is destroyed by spontaneous creation of vortices which destroy phase coherence. Using torque magnetometry on Bi2Sr2CaCu2O8+δ, we uncover a field-enhanced diamagnetic signal M above the transition temperature Tc that increases with applied field to 32 Tesla and scales just like the Nernst signal. The magnetization results above Tc distinguish M from conventional amplitude fluctuations, and strongly support the vortex scenario for the loss of phase coherence at Tc.
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