通过可编程交换偏压自旋电子发射器灵活生成结构化太赫兹场

IF 27.2 Q1 OPTICS eLight Pub Date : 2024-07-08 DOI:10.1186/s43593-024-00069-3
Shunjia Wang, Wentao Qin, Tongyang Guan, Jingyu Liu, Qingnan Cai, Sheng Zhang, Lei Zhou, Yan Zhang, Yizheng Wu, Zhensheng Tao
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引用次数: 0

摘要

结构光,尤其是太赫兹频率范围内的结构光,在各种应用中具有相当大的潜力。然而,结构化太赫兹辐射的产生和控制是一项重大挑战。在这项工作中,我们展示了一种新型可编程自旋电子发射器,它可以灵活地产生各种结构化太赫兹波。这是通过利用激光辅助交换偏置铁磁异质结构的局部场冷却,对发射器表面的磁化模式进行精确、高分辨率编程而实现的。此外,我们还概述了在远场实现特定复杂结构太赫兹场的通用设计策略。我们的设备成功演示了产生具有不同结构极化态的太赫兹波,包括空间上分离的圆极化、方位或径向极化态以及全波恩卡莱波束。这项创新为设计和产生结构化太赫兹辐射开辟了一条新途径,有望应用于太赫兹显微镜、通信、量子信息和光物质相互作用等领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Flexible generation of structured terahertz fields via programmable exchange-biased spintronic emitters

Structured light, particularly in the terahertz frequency range, holds considerable potential for a diverse range of applications. However, the generation and control of structured terahertz radiation pose major challenges. In this work, we demonstrate a novel programmable spintronic emitter that can flexibly generate a variety of structured terahertz waves. This is achieved through the precise and high-resolution programming of the magnetization pattern on the emitter’s surface, utilizing laser-assisted local field cooling of an exchange-biased ferromagnetic heterostructure. Moreover, we outline a generic design strategy for realizing specific complex structured terahertz fields in the far field. Our device successfully demonstrates the generation of terahertz waves with diverse structured polarization states, including spatially separated circular polarizations, azimuthal or radial polarization states, and a full Poincaré beam. This innovation opens a new avenue for designing and generating structured terahertz radiations, with potential applications in terahertz microscopy, communication, quantum information, and light-matter interactions.

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CiteScore
30.40
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