Superconducting nanowire-driven charge configuration memristor

Cryo-computing – both classical and quantum, is severely limited by the absence of a suitable cryo-memory. The challenges both in terms of energy efficiency and speed have been known for decades, but so far conventional technologies have not been able to deliver adequate performance. Here we present a non-volatile memory device which incorporates a superconducting nanowire and an all-electronic charge configuration memristor (CCM) based on switching between charge-ordered states in a layered dichalcogenide material. We numerically investigate the time-dynamics and current-voltage characteristics of such a device by modelling of the superconducting order parameter. The observed current-voltage response is faithfully reproduced by fabricated devices using a NbTiN nanowire and a 1T-TaS₂ CCM element. The inherent ultrahigh energy efficiency and speed of the device, which is in principle compatible with single flux quantum logic, leads to a promising memory concept for use in cryo-computing and quantum computing peripheral devices.\