Blockade of vortex flow by thermal fluctuations in atomically thin clean-limit superconductors

Abstract: Resistance in superconductors arises from the motion of vortices driven by flowing supercurrents or external electromagnetic fields and may be strongly affected by thermal or quantum fluctuations. The common expectation borne out in previous experiments is that as the temperature is lowered, vortex motion is suppressed, leading to a decreased resistance. A new generation of materials provides access to the previously inaccessible regime of clean-limit superconductivity in atomically thin superconducting layers… Show more

“…The energy dissipation rate due to this mechanism is controlled by the inelastic relaxation time τ in , and becomes nonlinear at rather weak electric fields E ∼ E * ∼ 1/τ in , see Eq. (13). At weak fields, E E * , the Debye contribution to the conductivity, Eqs.…”

Conductivity of superconductors in the flux flow regime

“…The energy dissipation rate due to this mechanism is controlled by the inelastic relaxation time τ in , and becomes nonlinear at rather weak electric fields E ∼ E * ∼ 1/τ in , see Eq. (13). At weak fields, E E * , the Debye contribution to the conductivity, Eqs.…”

Conductivity of superconductors in the flux flow regime