Ye Group Topics

New Superconducting State in Ising Superconductor

In a ground-breaking experiment, scientists from the University of Groningen, together with colleagues from the Dutch universities of Nijmegen and Twente and the Harbin Institute of Technology (China), have discovered the existence of a superconductive state that was first predicted in 2017. They present evidence for a special variant of the FFLO superconductive state on 24 May in the journal Nature. This discovery could have significant applications, particularly in the field of superconducting electronics.

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Full superconducting dome of strong Ising protection in gated monolayer WS₂

Compared with 3D superconductors, atomically thin superconductors are expected to be easier to engineer for electronic applications. Here, we use field effect gating to induce superconductivity in a monolayer semiconducting transition metal dichalcogenide, WS₂, grown by chemical vapor deposition. The remarkable doping range allows access to a cascade of electronic phases from a band insulator, a superconductor, to a reentrant insulator at high doping. The large spin-orbit coupling of ∼30 meV makes the Ising paring in WS₂arguably the most strongly protected superconducting state against external magnetic field. The wide tunability revealed by spanning over a complete superconducting dome paves the way for the integration of monolayer superconductors to functional electronic devices exploiting the field effect control of quantum phases.