Full polarization power combination based on a double-near-zero photonic crystal

Mengyao Wang; Qingfan Shi; Liangsheng Li; Ning Zheng

doi:10.1117/1.JNP.18.046008

Full polarization power combination based on a double-near-zero photonic crystal

Mengyao Wang, Qingfan Shi, Liangsheng Li^*, Ning Zheng^*

^*此作品的通讯作者

物理学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

The combined radiation power of current sources with different polarizations has been investigated through the manipulation of light propagation within zero-index materials. When the permittivity (permeability) of materials becomes zero, the amplitudes of transverse electric (magnetic) fields in media are a function of the position of the current sources. It is found that the amplitudes of electromagnetic fields excited in isotropic double-near-zero (DNZ) materials display a homogenous distribution, which can help to realize a high-quality power combination of the full polarization radiation field. Furthermore, the DNZ photonic crystal (PC) is designed and applied to approach full polarization power combination with multiple sources arranged in a complex pattern. In addition, the radiation field patterns of full polarization power combination could be easily controlled by changing the shape or boundary conditions of the PC.

源语言	英语
文章编号	046008
期刊	Journal of Nanophotonics
卷	18
期	4
DOI	https://doi.org/10.1117/1.JNP.18.046008
出版状态	已出版 - 1 10月 2024

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Wang, M., Shi, Q., Li, L., & Zheng, N. (2024). Full polarization power combination based on a double-near-zero photonic crystal. Journal of Nanophotonics, 18(4), 文章 046008. https://doi.org/10.1117/1.JNP.18.046008

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abstract = "The combined radiation power of current sources with different polarizations has been investigated through the manipulation of light propagation within zero-index materials. When the permittivity (permeability) of materials becomes zero, the amplitudes of transverse electric (magnetic) fields in media are a function of the position of the current sources. It is found that the amplitudes of electromagnetic fields excited in isotropic double-near-zero (DNZ) materials display a homogenous distribution, which can help to realize a high-quality power combination of the full polarization radiation field. Furthermore, the DNZ photonic crystal (PC) is designed and applied to approach full polarization power combination with multiple sources arranged in a complex pattern. In addition, the radiation field patterns of full polarization power combination could be easily controlled by changing the shape or boundary conditions of the PC.",

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AU - Zheng, Ning

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AB - The combined radiation power of current sources with different polarizations has been investigated through the manipulation of light propagation within zero-index materials. When the permittivity (permeability) of materials becomes zero, the amplitudes of transverse electric (magnetic) fields in media are a function of the position of the current sources. It is found that the amplitudes of electromagnetic fields excited in isotropic double-near-zero (DNZ) materials display a homogenous distribution, which can help to realize a high-quality power combination of the full polarization radiation field. Furthermore, the DNZ photonic crystal (PC) is designed and applied to approach full polarization power combination with multiple sources arranged in a complex pattern. In addition, the radiation field patterns of full polarization power combination could be easily controlled by changing the shape or boundary conditions of the PC.

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Full polarization power combination based on a double-near-zero photonic crystal

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