Broadband mid-IR antireflective Reuleaux-triangle-shaped hole array on germanium

Haijuan Cheng; Miao Dong; Qinwen Tan; Linghai Meng; Yi Cai; Jie Jiang; Weisheng Yang; Haizheng Zhong; Lingxue Wang

doi:10.3788/COL201917.122401

Broadband mid-IR antireflective Reuleaux-triangle-shaped hole array on germanium

Haijuan Cheng, Miao Dong, Qinwen Tan, Linghai Meng, Yi Cai, Jie Jiang, Weisheng Yang, Haizheng Zhong, Lingxue Wang^*

^*Corresponding author for this work

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

8 Citations (Scopus)

Abstract

A gradient-index Reuleaux-triangle-shaped hole array was fabricated on germanium (Ge) by nanoimprint lithography and inductively coupled plasma processing as a broadband mid-infrared (IR) antireflective surface. The interaction between the {111} planes of cubic crystalline Ge and a circular mold successfully produced an orderly and periodically distributed Reuleaux-triangle-shaped hole array. As a result, the average transmittance increased 15.67% over the waveband at 3-12 μm and remained stable at the incidence angle of up to 60°. The vertices of the Reuleaux triangle showed local enhancement of the electric field intensities due to interference of the incident and reflected radiation fields. It was also found that nonuniform hole depths acted to modulate the transmittance over the 3-12 μm waveband.

Original language	English
Article number	122401
Journal	Chinese Optics Letters
Volume	17
Issue number	12
DOIs	https://doi.org/10.3788/COL201917.122401
Publication status	Published - 10 Dec 2019

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title = "Broadband mid-IR antireflective Reuleaux-triangle-shaped hole array on germanium",

abstract = "A gradient-index Reuleaux-triangle-shaped hole array was fabricated on germanium (Ge) by nanoimprint lithography and inductively coupled plasma processing as a broadband mid-infrared (IR) antireflective surface. The interaction between the {111} planes of cubic crystalline Ge and a circular mold successfully produced an orderly and periodically distributed Reuleaux-triangle-shaped hole array. As a result, the average transmittance increased 15.67% over the waveband at 3-12 μm and remained stable at the incidence angle of up to 60°. The vertices of the Reuleaux triangle showed local enhancement of the electric field intensities due to interference of the incident and reflected radiation fields. It was also found that nonuniform hole depths acted to modulate the transmittance over the 3-12 μm waveband.",

author = "Haijuan Cheng and Miao Dong and Qinwen Tan and Linghai Meng and Yi Cai and Jie Jiang and Weisheng Yang and Haizheng Zhong and Lingxue Wang",

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T1 - Broadband mid-IR antireflective Reuleaux-triangle-shaped hole array on germanium

AU - Cheng, Haijuan

AU - Dong, Miao

AU - Tan, Qinwen

AU - Meng, Linghai

AU - Cai, Yi

AU - Jiang, Jie

AU - Yang, Weisheng

AU - Zhong, Haizheng

AU - Wang, Lingxue

PY - 2019/12/10

Y1 - 2019/12/10

N2 - A gradient-index Reuleaux-triangle-shaped hole array was fabricated on germanium (Ge) by nanoimprint lithography and inductively coupled plasma processing as a broadband mid-infrared (IR) antireflective surface. The interaction between the {111} planes of cubic crystalline Ge and a circular mold successfully produced an orderly and periodically distributed Reuleaux-triangle-shaped hole array. As a result, the average transmittance increased 15.67% over the waveband at 3-12 μm and remained stable at the incidence angle of up to 60°. The vertices of the Reuleaux triangle showed local enhancement of the electric field intensities due to interference of the incident and reflected radiation fields. It was also found that nonuniform hole depths acted to modulate the transmittance over the 3-12 μm waveband.

AB - A gradient-index Reuleaux-triangle-shaped hole array was fabricated on germanium (Ge) by nanoimprint lithography and inductively coupled plasma processing as a broadband mid-infrared (IR) antireflective surface. The interaction between the {111} planes of cubic crystalline Ge and a circular mold successfully produced an orderly and periodically distributed Reuleaux-triangle-shaped hole array. As a result, the average transmittance increased 15.67% over the waveband at 3-12 μm and remained stable at the incidence angle of up to 60°. The vertices of the Reuleaux triangle showed local enhancement of the electric field intensities due to interference of the incident and reflected radiation fields. It was also found that nonuniform hole depths acted to modulate the transmittance over the 3-12 μm waveband.

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Broadband mid-IR antireflective Reuleaux-triangle-shaped hole array on germanium

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