截止斜率可控的蓝光防护光学薄膜

王雨思; 周贤建; 李青原; 叶钊松; 蔡源海; 刘近秋; 陈楠; 卜轶坤

doi:10.37188/CO.2020-0212

Volume 14 Issue 3

May 2021

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Article Contents

Chinese Optics > 2021 > 14(3): 544-551.

WANG Yu-si, ZHOU Xian-jian, LI Qing-yuan, YE Zhao-song, CAI Yuan-hai, LIU Jin-qiu, CHEN Nan, Bu Yi-kun. Blue-blocking optical thin films with controllable cutoff slope[J]. Chinese Optics, 2021, 14(3): 544-551. doi: 10.37188/CO.2020-0212

Citation:

WANG Yu-si, ZHOU Xian-jian, LI Qing-yuan, YE Zhao-song, CAI Yuan-hai, LIU Jin-qiu, CHEN Nan, Bu Yi-kun. Blue-blocking optical thin films with controllable cutoff slope[J]. Chinese Optics, 2021, 14(3): 544-551. doi: 10.37188/CO.2020-0212

Citation:

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Blue-blocking optical thin films with controllable cutoff slope

doi: 10.37188/CO.2020-0212

1.
School of Electronic Science and Engineering (National Model Microelectronics College), Xiamen University, Xiamen 361000, China
2.
Riccino (Xiamen) Optical Inc., Xiamen 361000, China

Funds: Supported by National Natural Science Foundation of China (No. U1505253); Xiamen Science and Technology Planning Project (No. 3502Z20183003)

More Information

Corresponding author: buyikun0522@xmu.edu.cn
Received Date: 03 Dec 2020
Rev Recd Date: 07 Jan 2021

Available Online: 27 Mar 2021

Publish Date: 14 May 2021

Abstract

Abstract

To reduce the damage to human eyes and ensure the beneficial regulation of the human rhythm by short-wave blue light, accurate control of the transmission slope of the 400~500 nm wavelength is particularly important in blue light protection. In this paper, a nonlinear Boltzmann function fitting method for long wave-pass thin films is proposed, and thin films (Z1) and (Z2) are obtained by optimizing the nonlinear and linear target, respectively. Admittance and transmittance diagrams of thin films (Z1) and (Z2) are shown that the thin film optimized by a nonlinear target has a controllable slope and better passband spectral performance. The blue-blocking thin film of 14 layers is fabricated using electron-beam evaporation assisted by an ion beam, which met the technical requirements of the new GB/T38120—2019 national standard. The results present that the average transmittance of the single-side thin film is less than 3.2% at 385~415 nm, less than 30.88% at 415~445 nm, more than 81.9% at 445~475 nm, and more than 95.5% at 500~800 nm. These promising results indicate that this design method provide a new solution for vision protection applications such as eyeglasses, computer desktop and mobile digital screens.
- protective thin films,
- electron beam evaporation,
- blue-blocking protection

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References(13)

References

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