Litcius/Paper detail

Magnetic field filtering of the boundary supercurrent in unconventional metal NiTe2-based Josephson junctions

Tian Le, Ruihan Zhang, Changcun Li, Ruiyang Jiang, Haohao Sheng, Linfeng Tu, Xuewei Cao, Zhaozheng Lyu, Jie Shen, Guangtong Liu, Fucai Liu, Zhijun Wang, Li Lü, Fanming Qu

2024Nature Communications10 citationsDOIOpen Access PDF

Abstract

Abstract Topological materials with boundary (surface/edge/hinge) states have attracted tremendous research interest. Additionally, unconventional (obstructed atomic) materials have recently drawn lots of attention owing to their obstructed boundary states. Experimentally, Josephson junctions (JJs) constructed on materials with boundary states produce the peculiar boundary supercurrent, which was utilized as a powerful diagnostic approach. Here, we report the observations of boundary supercurrent in NiTe 2 -based JJs. Particularly, applying an in-plane magnetic field along the Josephson current can rapidly suppress the bulk supercurrent and retain the nearly pure boundary supercurrent, namely the magnetic field filtering of supercurrent. Further systematic comparative analysis and theoretical calculations demonstrate the existence of unconventional nature and obstructed hinge states in NiTe 2 , which could produce hinge supercurrent that accounts for the observation. Our results reveal the probable hinge states in unconventional metal NiTe 2 , and demonstrate in-plane magnetic field as an efficient method to filter out the bulk contributions and thereby to highlight the hinge states hidden in topological/unconventional materials.

Topics & Concepts

SupercurrentJosephson effectBoundary (topology)HingeMagnetic fieldPhysicsCondensed matter physicsField (mathematics)SuperconductivityQuantum mechanicsClassical mechanicsMathematicsMathematical analysisPure mathematicsTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsQuantum and electron transport phenomena