Pisma v Zhurnal Tekhnicheskoi Fiziki, 2021 Volume 47, Issue 13,Pages 8–11(Mi pjtf4741)
Maximum parameters of the resistive state and effect of the voltage level on degradation of the superconducting properties and stabilized second-generation high-temperature superconductors wires
Abstract:
It has been established that, in stabilized high-temperature superconducting (HTS) materials, the transition between the superconducting and resistive states is electromagnetic and the resistive state has universal characteristics in voltage and resistance per unit length: 0.040 V/cm and 50 $\mu\Omega$/cm, respectively. It has been found that, after the transition from the resistive to the normal state at a voltage level of more than 0.7 V in the normal state, the superconducting properties of an HTS material are irreversibly degraded. The obtained characteristics make it possible to determine the safe operation level and estimate the resistance and voltage level in HTS elements of electrical equipment in a stable resistive mode.
Keywords:high-temperature superconductor, copper stabilizer, resistive state, destruction of the superconducting layer, HTS device.