Dr. Yun-Peng Huang Profile

Dr. Yun-Peng Huang

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Proceedings Article | 28 September 2023 Presentation + Paper

New mechanisms to engineer magnetic skyrmions and topological superconductors

Panagiotis Kotetes, Yun-Peng Huang

Proceedings Volume 12656, 126560T (2023) https://doi.org/10.1117/12.2678156

KEYWORDS: Magnetism, Superconductivity, Superconductors, Ground state, Quantum systems

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We propose an alternative route to stabilize magnetic skyrmions which does not require Dzyaloshinkii-Moriya interactions, magnetic anisotropy, or an external Zeeman field. Our so-called magnetic skyrmion catalysis (MSC) solely relies on the emergence of flux in the system’s ground state. We review scenarios that allow for a nonzero flux and summarize the magnetic skyrmion phases that it induces. Among these, we focus on the so-called skyrmionic spin-whirl crystal (Sk-SWC₄) phase. We discuss aspects of MSC using a concrete model for topological superconductivity, which describes the surface states of a topological crystalline insulator in the presence of proximity induced pairing. By assuming that the surface states can exhibit the Sk-SWC₄ phase, we detail how the addition of a pairing gap generates a chiral superconductor. For this purpose, we construct a low-energy model which renders the mechanism for topological superconductivity transparent. Moreover, by employing this model, we perform a self-consistent investigation of the appearance of the Sk-SWC₄ phase for different values of the pairing gap and the ground state’s flux. Our analysis verifies the catalytic nature of our mechanism in stabilizing the Sk-SWC₄ phase, since the magnetization modulus becomes enhanced upon ramping up the flux. The involvement of MSC further shields magnetism against the suppression induced by the pairing gap. Remarkably, even if the pairing gap fully suppresses the Sk-SWC₄ phase for a given value of flux, this skyrmion phase can be restored by further increasing the flux. Our findings demonstrate that MSC enables topological superconductivity in a minimal and robust fashion.

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