Near-infrared ITO-based photonic hypercrystals with large angle-insensitive bandgaps

Ke-Sheng Shen; Xin-Kai Li; Yun Zheng; Hong-Chao Liu; Hong-Chao Liu; Shi-Qing Dong; Jun Zhang; Shi-Qiang Xia; Chao Dong; Xiao-Long Sun; Xian-Zhou Zhang; Chun-Hua Xue; Hai Lu; Hai Lu

doi:10.1364/OL.440358

Optics Letters
Vol. 47,
Issue 4,
pp. 917-920
(2022)
•https://doi.org/10.1364/OL.440358

Near-infrared ITO-based photonic hypercrystals with large angle-insensitive bandgaps

Ke-Sheng Shen, Xin-Kai Li, Yun Zheng, Hong-Chao Liu, Shi-Qing Dong, Jun Zhang, Shi-Qiang Xia, Chao Dong, Xiao-Long Sun, Xian-Zhou Zhang, Chun-Hua Xue, and Hai Lu

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Ke-Sheng Shen, Xin-Kai Li, Yun Zheng, Hong-Chao Liu, Shi-Qing Dong, Jun Zhang, Shi-Qiang Xia, Chao Dong, Xiao-Long Sun, Xian-Zhou Zhang, Chun-Hua Xue, and Hai Lu, "Near-infrared ITO-based photonic hypercrystals with large angle-insensitive bandgaps," Opt. Lett. 47, 917-920 (2022)

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Abstract

The angle-sensitive photonic bandgap (PBG) is one of the typical features of one-dimensional photonic crystals. Based on the phase-variation compensation effect between the dielectric and hyperbolic metamaterials (HMMs), angle-insensitive PBGs can be realized in photonic hypercrystals. However, since hypercrystals are usually constructed using metal components, these angle-insensitive PBGs are mostly limited to narrow bandwidths in visible range. Here, we replace metal with indium tin oxide (ITO) to construct HMMs in the near-infrared range. In these ITO-based HMMs, we experimentally demonstrate the negative refraction of light in transverse magnetic polarization. With this HMM component, we realize a photonic hypercrystal with an angle-insensitive PBG in the wavelength range of 1.15–2.02 µm. These ITO-based hypercrystals with large angle-insensitive PBGs can find applications in near-infrared reflectors or filters.

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Abstract

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Optics Letters