Superconducting vortex-charge measurement using cavity electromechanics

Abstract

As the magnetic field penetrates the surface of a superconductor, it results in the formation of flux-vortices. It has been predicted that the flux-vortices will have a charged vortex core and create a dipolelike electric field. Such a charge trapping in vortices is particularly enhanced in high-Tc superconductors (HTS). Here, we integrate a mechanical resonator made of a thin flake of HTS Bi2Sr2CaCu2O8+δ into a microwave circuit to realize a cavity-electromechanical device. Due to the exquisite sensitivity of cavity-based devices to the external forces, we directly detect the charges in the flux-vortices by measuring the electromechanical response of the mechanical resonator. Our measurements reveal the strength of surface electric dipole moment due to a single vortex core to be approximately 30~|e|aB, equivalent to a vortex charge per CuO2 layer of 3.7× 10-2|e|, where aB is the Bohr radius and e is the electronic charge.