具有混合和纯光子偏振的非线性元表面中的量子对生成

IF 9.1 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Nano Letters Pub Date : 2024-11-20 DOI:10.1021/acs.nanolett.4c04398

Jiho Noh, Tomás Santiago-Cruz, Vitaliy Sultanov, Chloe F. Doiron, Sylvain D. Gennaro, Maria V. Chekhova, Igal Brener

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引用次数: 0

摘要

元表面在操纵线性机制中的经典光方面非常有效；然而，有效控制非线性共振元表面产生的非经典光的偏振仍然是一项挑战。在这里，我们提出了一种解决方案，即利用连续体中的准束缚态（qBIC）共振来增强双光子的产生，从而实现通过砷化镓超表面中的自发参量下转换而发射的频率非消能双光子的偏振工程。通过全面的偏振层析成像，我们证明了发射光子的偏振直接反映了 qBIC 模式的远场特性。此外，我们还表明，qBIC 模式的类型和元原子的对称性都可以通过定制来控制每种单光子偏振态，而且随后的双光子偏振态几乎是可分离的，这为预示性地产生具有可调偏振的单光子提供了潜在的应用前景。这项工作为利用元表面产生量子光并设计其偏振迈出了重要一步，而这正是未来量子技术的关键所在。

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Quantum Pair Generation in Nonlinear Metasurfaces with Mixed and Pure Photon Polarizations

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Quantum Pair Generation in Nonlinear Metasurfaces with Mixed and Pure Photon Polarizations

Metasurfaces are highly effective at manipulating classical light in the linear regime; however, effectively controlling the polarization of nonclassical light generated from nonlinear resonant metasurfaces remains a challenge. Here, we present a solution by achieving polarization engineering of frequency-nondegenerate biphotons emitted via spontaneous parametric down-conversion in GaAs metasurfaces, utilizing quasi-bound states in the continuum (qBIC) resonances to enhance biphoton generation. Through comprehensive polarization tomography, we demonstrate that the emitted photons’ polarization directly reflects the qBIC mode’s far-field properties. Furthermore, we show that both the type of qBIC mode and the symmetry of the meta-atoms can be tailored to control each single-photon polarization state, and that the subsequent two-photon polarization states are nearly separable, offering potential applications in the heralded generation of single photons with adjustable polarization. This work provides a significant step toward utilizing metasurfaces to generate quantum light and engineer their polarization, a critical aspect for future quantum technologies.

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来源期刊

Nano Letters 工程技术-材料科学：综合

CiteScore

16.80

自引率

2.80%

发文量

1182

审稿时长

1.4 months

期刊介绍： Nano Letters serves as a dynamic platform for promptly disseminating original results in fundamental, applied, and emerging research across all facets of nanoscience and nanotechnology. A pivotal criterion for inclusion within Nano Letters is the convergence of at least two different areas or disciplines, ensuring a rich interdisciplinary scope. The journal is dedicated to fostering exploration in diverse areas, including: - Experimental and theoretical findings on physical, chemical, and biological phenomena at the nanoscale - Synthesis, characterization, and processing of organic, inorganic, polymer, and hybrid nanomaterials through physical, chemical, and biological methodologies - Modeling and simulation of synthetic, assembly, and interaction processes - Realization of integrated nanostructures and nano-engineered devices exhibiting advanced performance - Applications of nanoscale materials in living and environmental systems Nano Letters is committed to advancing and showcasing groundbreaking research that intersects various domains, fostering innovation and collaboration in the ever-evolving field of nanoscience and nanotechnology.