What question did this study set out to answer?

The aim is to explore the properties and interactions of Majorana zero modes and charge order in 2M-WS2.

March 2, 2026Open Access

2m-Ws2中的马约拉纳零能模、与晶格解耦的电荷序及其相互作用

Key Points

The aim is to explore the properties and interactions of Majorana zero modes and charge order in 2M-WS2.
Conducted scanning tunneling microscopy experiments on 2M-WS2
Investigated coexistent Majorana zero modes and traditional bound states
Studied stripe-like charge order decoupled from lattice
Anisotropic Majorana zero modes observed within superconducting magnetic vortices
Discovery of a new charge order that coexists with superconductivity
Charge order transition temperature found within the strange metal phase

Abstract

马约拉纳零能模是凝聚态物理中的一种非阿贝尔任意子激发, 是实现拓扑量子计算的核心载体. 本文从马约拉纳零能模的理论背景与实验现状出发, 介绍了对Fu‑Kane拓扑超导体2M‑WS2开展的扫描隧道显微镜实验研究，相关进展包括： (1) 在其超导磁通涡旋中观测到与常规Caroli‑de Gennes‑Matricon束缚态共存的各向异性马约拉纳零能模. (2) 首次发现一种与超导共存、可旋转且与晶格解耦的条纹状电荷序, 其转变温度位于奇异金属相区间. (3) 该电荷序可将马约拉纳零能模压制至表面以下, 这为后续MZM的空间操纵与编织提供了可控的新途径.

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2m-Ws2中的马约拉纳零能模、与晶格解耦的电荷序及其相互作用

Key Points

Abstract

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