Diode Effect May Assist Finding Proper Superconductivity Mechanism in Copper Oxides

Abstract

We present measurements demonstrating that copper-oxide high-temperature superconductors can exhibit broken time-reversal symmetry in the absence of external magnetic fields. Using Tl2Ba2CaCu2O8 microbridges, we observe a pronounced superconducting diode effect at 100 K under strictly zero-field conditions. This nonreciprocal response remains unchanged in magnetic fields up to 100 Oe. Our results are consistent with recent reports of zero-field diode behavior in Bi2Sr2CaCu2O8+δ and together indicate that time-reversal symmetry breaking may be an intrinsic property of the cuprate superconducting state. These findings significantly constrain theoretical models of high-temperature superconductivity that rely on time-reversal-symmetric mechanisms.