Coexistence of resistance oscillations and the anomalous metal phase in a lithium intercalated TiSe2 superconductor

The interplay between superconductivity and charge density wave (CDW) gives rise to exotic quantum phenomena. Here, the authors observe magnetoresistance oscillations and an anomalous metal state due to the coexistence of superconductivity and CDW in lithium intercalated TiSe2. Superconductivity and charge density wave (CDW) appear in the phase diagram of a variety of materials including the high-T-c cuprate family and many transition metal dichalcogenides (TMDs). Their interplay may give rise to exotic quantum phenomena. Here, we show that superconducting arrays can spontaneously form in TiSe2-a TMD with coexisting superconductivity and CDW-after lithium ion intercalation. We induce a superconducting dome in the phase diagram of LixTiSe2 by using the ionic solid-state gating technique. Around optimal doping, we observe magnetoresistance oscillations, indicating the emergence of periodically arranged domains. In the same temperature, magnetic field and carrier density regime where the resistance oscillations occur, we observe signatures for the anomalous metal-a state with a resistance plateau across a wide temperature range below the superconducting transition. Our study not only sheds further insight into the mechanism for the periodic electronic structure, but also reveals the interplay between the anomalous metal and superconducting fluctuations.

Automated summary

The authors observed magnetoresistance oscillations and an anomalous metal state due to the coexistence of superconductivity and charge density wave in lithium intercalated TiSe2. They induced a superconducting dome in the phase diagram of LixTiSe2 and observed periodically arranged superconducting arrays around optimal doping. Additionally, they observed an anomalous metal state with resistance plateau below the superconducting transition.