Large spatial shifts of reflected light beam off biaxial hyperbolic materials

Jia Guo Shen; Syed Ul Hasnain Bakhtiar; Hao Yuan Song; Sheng Zhou; Shu Fang Fu; Xuan Zhang Wang; Xuan Wang; Qiang Zhang

doi:10.1088/1674-1056/acd526

Large spatial shifts of reflected light beam off biaxial hyperbolic materials

Jia Guo Shen, Syed Ul Hasnain Bakhtiar, Hao Yuan Song, Sheng Zhou, Shu Fang Fu, Xuan Zhang Wang, Xuan Wang, Qiang Zhang

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Many optical systems that deal with polarization rely on the adaptability of controlling light reflection in the lithography-free nanostructure. In this study, we explore the Goos-Hänchen (GH) shift and Imbert-Fedorov (IF) shift in a biaxial hyperbolic film on a uniaxial hyperbolic substrate. This research statistically calculates and analyzes the GH shift and IF shift for the natural biaxial hyperbolic material (NBHM). We select the surface with the strongest anisotropy within the NBHM and obtain the complex beam-shift spectrum. By incorporating the NBHM film, the GH shift caused by a transversely magnetic incident-beam on the surface increases significantly compared with that on the uniaxial hyperbolic material. The maximum of GH shift can reach 86λ ₀ at about 841 cm⁻¹ when the thickness of NBHM is 90 nm, and the IF shift can approach 2.7λ ₀ for a circularly-polarized beam incident on a 1700-nm-thick NBHM. It is found that the spatial-shift increases when a highly anisotropic hyperbolic polariton is excited in hyperbolic material, where the shift spectrum exhibits an oscillating behaviour accompanied with sharp shift peak (steep slope). This large spatial shift may provide an alternative strategy to develop novel sub-micrometric optical devices and biosensors.

Original language	English
Article number	114206
Journal	Chinese Physics B
Volume	32
Issue number	11
DOIs	https://doi.org/10.1088/1674-1056/acd526
State	Published - 1 Oct 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023 Chinese Physical Society and IOP Publishing Ltd.

Keywords

Goos-Hänchen shift
Imbert-Fedorov shift
α-MoO

ASJC Scopus subject areas

General Physics and Astronomy

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10.1088/1674-1056/acd526

Cite this

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title = "Large spatial shifts of reflected light beam off biaxial hyperbolic materials",

abstract = "Many optical systems that deal with polarization rely on the adaptability of controlling light reflection in the lithography-free nanostructure. In this study, we explore the Goos-H{\"a}nchen (GH) shift and Imbert-Fedorov (IF) shift in a biaxial hyperbolic film on a uniaxial hyperbolic substrate. This research statistically calculates and analyzes the GH shift and IF shift for the natural biaxial hyperbolic material (NBHM). We select the surface with the strongest anisotropy within the NBHM and obtain the complex beam-shift spectrum. By incorporating the NBHM film, the GH shift caused by a transversely magnetic incident-beam on the surface increases significantly compared with that on the uniaxial hyperbolic material. The maximum of GH shift can reach 86λ 0 at about 841 cm−1 when the thickness of NBHM is 90 nm, and the IF shift can approach 2.7λ 0 for a circularly-polarized beam incident on a 1700-nm-thick NBHM. It is found that the spatial-shift increases when a highly anisotropic hyperbolic polariton is excited in hyperbolic material, where the shift spectrum exhibits an oscillating behaviour accompanied with sharp shift peak (steep slope). This large spatial shift may provide an alternative strategy to develop novel sub-micrometric optical devices and biosensors.",

keywords = "Goos-H{\"a}nchen shift, Imbert-Fedorov shift, α-MoO",

author = "Shen, {Jia Guo} and Bakhtiar, {Syed Ul Hasnain} and Song, {Hao Yuan} and Sheng Zhou and Fu, {Shu Fang} and Wang, {Xuan Zhang} and Xuan Wang and Qiang Zhang",

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AU - Shen, Jia Guo

AU - Bakhtiar, Syed Ul Hasnain

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AU - Zhou, Sheng

AU - Fu, Shu Fang

AU - Wang, Xuan Zhang

AU - Wang, Xuan

AU - Zhang, Qiang

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N2 - Many optical systems that deal with polarization rely on the adaptability of controlling light reflection in the lithography-free nanostructure. In this study, we explore the Goos-Hänchen (GH) shift and Imbert-Fedorov (IF) shift in a biaxial hyperbolic film on a uniaxial hyperbolic substrate. This research statistically calculates and analyzes the GH shift and IF shift for the natural biaxial hyperbolic material (NBHM). We select the surface with the strongest anisotropy within the NBHM and obtain the complex beam-shift spectrum. By incorporating the NBHM film, the GH shift caused by a transversely magnetic incident-beam on the surface increases significantly compared with that on the uniaxial hyperbolic material. The maximum of GH shift can reach 86λ 0 at about 841 cm−1 when the thickness of NBHM is 90 nm, and the IF shift can approach 2.7λ 0 for a circularly-polarized beam incident on a 1700-nm-thick NBHM. It is found that the spatial-shift increases when a highly anisotropic hyperbolic polariton is excited in hyperbolic material, where the shift spectrum exhibits an oscillating behaviour accompanied with sharp shift peak (steep slope). This large spatial shift may provide an alternative strategy to develop novel sub-micrometric optical devices and biosensors.

AB - Many optical systems that deal with polarization rely on the adaptability of controlling light reflection in the lithography-free nanostructure. In this study, we explore the Goos-Hänchen (GH) shift and Imbert-Fedorov (IF) shift in a biaxial hyperbolic film on a uniaxial hyperbolic substrate. This research statistically calculates and analyzes the GH shift and IF shift for the natural biaxial hyperbolic material (NBHM). We select the surface with the strongest anisotropy within the NBHM and obtain the complex beam-shift spectrum. By incorporating the NBHM film, the GH shift caused by a transversely magnetic incident-beam on the surface increases significantly compared with that on the uniaxial hyperbolic material. The maximum of GH shift can reach 86λ 0 at about 841 cm−1 when the thickness of NBHM is 90 nm, and the IF shift can approach 2.7λ 0 for a circularly-polarized beam incident on a 1700-nm-thick NBHM. It is found that the spatial-shift increases when a highly anisotropic hyperbolic polariton is excited in hyperbolic material, where the shift spectrum exhibits an oscillating behaviour accompanied with sharp shift peak (steep slope). This large spatial shift may provide an alternative strategy to develop novel sub-micrometric optical devices and biosensors.

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Large spatial shifts of reflected light beam off biaxial hyperbolic materials

Abstract

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Keywords

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