Enhanced performance and functionality in spintronic sensors

Diana C. Leitao, Floris J. F. van Riel, Mahmoud Rasly, Pedro D. R. Araujo, Maria Salvador, Elvira Paz, Bert Koopmans
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Abstract

Spintronic sensors are uniquely positioned to deliver the next generation of high-performance magnetic field measurement tools with re-configurable key features. In this perspective article, we focus on giant and tunnel magnetoresistance sensors that exploit changes in the electrical resistance of thin films in response to an external magnetic field. We discuss strategies to address ongoing open challenges to improve operation limits. The goal is to meet current technological needs and thus expand the scope of existing applications. We also propose innovative approaches to design sensors with adaptable characteristics and embedded multifunctionality, aiming to create opportunities for future magnetic sensing applications. These solutions leverage the versatility of spintronic sensors, from the thin-film multilayers that form their building blocks, to device fabrication methods and potential integration with other technologies. The outlook of novel applications spans multiple areas, including electric vehicles, robotics, remote detection, or biomedicine.

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增强自旋电子传感器的性能和功能
自旋电子传感器在提供具有可重新配置关键特性的下一代高性能磁场测量工具方面具有得天独厚的优势。在这篇视角文章中,我们将重点讨论巨磁阻和隧道磁阻传感器,这些传感器利用薄膜电阻的变化对外部磁场做出响应。我们讨论了应对当前挑战的策略,以改善操作极限。我们的目标是满足当前的技术需求,从而扩大现有的应用范围。我们还提出了设计具有适应性特征和嵌入式多功能传感器的创新方法,旨在为未来的磁感应应用创造机会。这些解决方案充分利用了自旋电子传感器的多功能性,从构成其构件的多层薄膜,到设备制造方法以及与其他技术的潜在集成。新型应用前景涵盖多个领域,包括电动汽车、机器人、远程检测或生物医学。
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