Integrating 2D magnets for quantum devices: from materials and characterization to future technology

Integrating 2D magnets for quantum devices: from materials and characterization to future technology

The unveiling of two-dimensional (2D) van der Waals magnetism ignited a surge of interest in low-dimensional magnetism. With dimensions reduced, research has delved into facile electric control of 2D magnetism, high-quality heterostructure design, and new device functionality. These atomically thin...

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Bibliographic Details
Main Authors: Han Zhong, Douglas Z Plummer, Pengcheng Lu, Yang Li, Polina A Leger, Yingying Wu
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:Materials for Quantum Technology
Subjects:
van der Waals magnet
ultrathin materials
spintronic device
quantum technology
Online Access:https://doi.org/10.1088/2633-4356/adb474
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Summary:The unveiling of two-dimensional (2D) van der Waals magnetism ignited a surge of interest in low-dimensional magnetism. With dimensions reduced, research has delved into facile electric control of 2D magnetism, high-quality heterostructure design, and new device functionality. These atomically thin magnetic materials have spawned a burgeoning field known as 2D spintronics, holding immense promise for future quantum technologies. In this review, we comprehensively survey the current advancements in 2D magnet-based quantum devices, accentuating their role in manifesting exotic properties and enabling novel functionalities. Topological states, spin torques, voltage control of magnetic anisotropy, strain engineering, twistronics, and designer interface will be discussed. Furthermore, we offer an outlook for their development in future CMOS and quantum hardware paradigms.
ISSN:2633-4356

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