Spin-orbit coupled spin-polarised hole gas at the CrSe2-terminated surface of AgCrSe2

Gesa R. Siemann; Seo Jin Kim; Edgar Abarca Morales; Philip A.E. Murgatroyd; Andela Zivanovic; Brendan Edwards; Igor Marković; Federico Mazzola; Liam Trzaska; Oliver J. Clark; Chiara Bigi; Haijing Zhang; Barat Achinuq; Thorsten Hesjedal; Matthew D. Watson; Timur K. Kim; Peter Bencok; Gerrit van der Laan; Craig M. Polley; Mats Leandersson; Hanna Fedderwitz; Khadiza Ali; Thiagarajan Balasubramanian; Marcus Schmidt; Michael Baenitz; Helge Rosner; Phil D.C. King

Journal ArticleOPEN ACCESS

Spin-orbit coupled spin-polarised hole gas at the CrSe2-terminated surface of AgCrSe2

npj Quantum Materials (2023) 8(1)

DOI: 10.1038/s41535-023-00593-4

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Abstract

In half-metallic systems, electronic conduction is mediated by a single spin species, offering enormous potential for spintronic devices. Here, using microscopic-area angle-resolved photoemission, we show that a spin-polarised two-dimensional hole gas is naturally realised in the polar magnetic semiconductor AgCrSe2 by an intrinsic self-doping at its CrSe2-terminated surface. Through comparison with first-principles calculations, we unveil a striking role of spin-orbit coupling for the surface hole gas, unlocked by both bulk and surface inversion symmetry breaking, suggesting routes for stabilising complex magnetic textures in the surface layer of AgCrSe2.

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Siemann, G. R., Kim, S. J., Morales, E. A., Murgatroyd, P. A. E., Zivanovic, A., Edwards, B., … King, P. D. C. (2023). Spin-orbit coupled spin-polarised hole gas at the CrSe2-terminated surface of AgCrSe2. Npj Quantum Materials, 8(1). https://doi.org/10.1038/s41535-023-00593-4

Spin-orbit coupled spin-polarised hole gas at the CrSe2-terminated surface of AgCrSe2

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