Artificial nonreciprocal photonic materials at GHz-to-THz frequencies

Alu Andrea; Krishnaswamy Harish

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Artificial nonreciprocal photonic materials at GHz-to-THz frequencies

机译：GHz至THz频率的人工不可逆光子材料

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Lorentz reciprocity governs the symmetry with which electromagnetic signals travel in space and time. A reciprocal channel supports signal transport in two directions with the same transmission properties. Nonreciprocal devices do not obey this general symmetry, and therefore enable isolation and circulation, offering fundamental functionalities in modern GHz-to-THz photonic systems. While most nonreciprocal devices to date are based on magneto-optical phenomena, significant interest has been raised by approaches that avoid the use of magnetic materials, instead relying on artificial materials and circuits that mimic magnetically biased ferrites, enabling compact, light, integrated, and significantly cheaper nonreciprocal devices. Here, we review recent progress in and opportunities offered by artificial nonmagnetic materials that break reciprocity, revealing their potential for compact nonreciprocal devices and systems.

机译：洛伦兹的互惠性决定了电磁信号在时空中传播的对称性。互惠通道支持具有相同传输特性的两个方向的信号传输。不可逆设备不遵循这种一般对称性，因此可以实现隔离和流通，从而在现代GHz至THz光子系统中提供了基本功能。迄今为止，虽然大多数不可逆设备都是基于磁光现象的，但通过避免使用磁性材料的方法引起了人们的极大兴趣，这些方法避免了使用模仿磁性偏置铁氧体的人造材料和电路，从而实现了紧凑，轻便，集成化和便宜得多的不可逆设备。在这里，我们回顾了打破互易性的人造非磁性材料的最新进展和机遇，揭示了其在紧凑型不可逆设备和系统中的潜力。

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《MRS bulletin》 |2018年第6期|436-442|共7页
作者
Alu Andrea; Krishnaswamy Harish;
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作者单位

CUNY, Adv Sci Res Ctr, New York, NY 10021 USA;

Columbia Univ, Elect Engn, New York, NY USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
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正文语种 eng
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4. Novel nonreciprocal materials based on magnetic photonic crystals [C] . A. Figotin, I. Vitebskiy Symposium on Magneto-Optical Materials for Photonics and Recording . 2005

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Artificial nonreciprocal photonic materials at GHz-to-THz frequencies

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