Skyrmion Quantum Diode Prototype: Bridging Micromagnetic Simulations and Quantum Models
Haowen Yang, Gerald Bissell, Han Zhong, Peter Van Kirk, Tiger Cao, Pengcheng Lu, and Yingying Wu
TL;DR
This paper introduces a skyrmion quantum diode device that combines micromagnetic simulations and quantum models, demonstrating unidirectional skyrmion transport and potential integration into quantum computing architectures.
Contribution
It presents the first proof-of-concept skyrmion quantum diode, bridging classical micromagnetic and quantum circuit models for scalable quantum information transport.
Findings
Skyrmion diameters as small as 3 nm achieved
Unidirectional skyrmion transport demonstrated
Potential compatibility with quantum architectures
Abstract
Magnetic skyrmions are topologically protected spin textures known for their robustness against perturbations. Their topological stability makes them robust information carriers, ideal for tackling a key challenge in quantum computing: creating reliable, one-way links between different types of qubits. In this proof-of-concept study, we introduce a novel device - the skyrmion quantum diode - based on skyrmion qubits. Our approach combines classical micromagnetic simulations, achieving skyrmion diameters as small as 3 nm, with quantum circuit models inspired by superconducting qubits. In this work, we demonstrate: (i) unidirectional skyrmion transport via the skyrmion Hall effect in asymmetric junctions, spanning length scales from 20 nm down to 3 nm; (ii) potential compatibility with flux-tunable quantum architectures; and (iii) preliminary insights into anharmonicity in skyrmion-based…
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Taxonomy
TopicsMagnetic properties of thin films · Topological Materials and Phenomena · Quantum and electron transport phenomena