Magnon-photon coupling in an opto-electro-magnonic oscillator

Yuzan Xiong, Jayakrishnan M. P. Nair, Andrew Christy, James F. Cahoon, Amin Pishehvar, Xufeng Zhang, Benedetta Flebus, Wei Zhang
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Abstract

The opto-electronic oscillators (OEOs) hosting self-sustained oscillations by a time-delayed mechanism are of particular interest in long-haul signal transmission and processing. On the other hand, owing to their unique tunability and compatibility, magnons—as elementary excitations of spin waves—are advantageous carriers for coherent signal transduction across different platforms. In this work, we integrated an opto-electronic oscillator with a magnonic oscillator consisting of a microwave waveguide and a yttrium iron garnet sphere. We find that, in the presence of the magnetic sphere, the oscillator power spectrum exhibits sidebands flanking the fundamental OEO modes. The measured waveguide transmission reveals anti-crossing gaps, a hallmark of the coupling between the opto-electronic oscillator modes and the Walker modes of the sphere. Experimental results are well reproduced by a coupled-mode theory that accounts for nonlinear magnetostrictive interactions mediated by the magnetic sphere. Leveraging the advanced fiber-optic technologies in opto-electronics, this work lays out a new, hybrid platform for investigating long-distance coupling and nonlinearity in coherent magnonic phenomena.

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光电磁振荡器中的磁子-光子耦合
光电子振荡器(OEOs)通过延时机制承载自持振荡,在长距离信号传输和处理方面具有特殊意义。另一方面,由于其独特的可调谐性和兼容性,磁子--作为自旋波的基本激发--是跨不同平台进行相干信号传输的有利载体。在这项工作中,我们将一个光电振荡器与一个由微波波导和钇铁石榴石球组成的磁子振荡器集成在一起。我们发现,在磁性球体存在的情况下,振荡器功率谱在基本 OEO 模式的侧面显示出边带。测量的波导传输显示出反交叉间隙,这是光电子振荡器模式与球体的沃克模式之间耦合的标志。耦合模式理论很好地再现了实验结果,该理论考虑了磁球介导的非线性磁致伸缩相互作用。这项研究利用先进的光电子光纤技术,为研究相干磁子现象中的长距离耦合和非线性问题提供了一个全新的混合平台。
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