Determination of Optical Constants by Double Thickness Transmittance Model Based on Polynomial Root

Baiyu YANG; Xiaoliang WU; Cuixiang WANG; Weiyu WANG; Lei LI; Qi FAN; Jing LIU

Journals >Infrared Technology >Volume 45 >Issue 1 >Page 91 > Article

Infrared Technology
Vol. 45, Issue 1, 91 (2023)

Determination of Optical Constants by Double Thickness Transmittance Model Based on Polynomial Root

Baiyu YANG, Xiaoliang WU, Cuixiang WANG, Weiyu WANG, Lei LI, Qi FAN^*, and Jing LIU

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[in Chinese]

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DOI: Cite this Article

YANG Baiyu, WU Xiaoliang, WANG Cuixiang, WANG Weiyu, LI Lei, FAN Qi, LIU Jing. Determination of Optical Constants by Double Thickness Transmittance Model Based on Polynomial Root[J]. Infrared Technology, 2023, 45(1): 91 Copy Citation Text

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References

[1] El-Zaiat S Y, El-Den M B, El-Kameesy S U, et al. Spectral dispersion of linear optical properties for Sm2O3 doped B2O3-PbO-Al2O3 glasses[J]. Opt. Laser Technol., 2012, 44: 1270-1276.

[2] Bridou F, Cuniot-Ponsard M, Jean-Michel D. Experimental determination of optical constants in the vacuum ultra violet wavelength region between 80 and 140 nm: a reflectance versus thickness method and its application to ZnSe[J]. Opt. Commun., 2007, 271: 353-360.

[3] Dhanasekaran V, Mahalingam T, Rhee J K, et al. Structural and optical properties of electrosynthesized ZnSe thin films[J]. Optik, 2013, 124(3): 255-260.

CLP Journals

[1] YANG Baiyu, WU Xiaoliang, WANG Cuixiang, WANG Weiyu, LI Lei, FAN Qi, LIU Jing, XU Cuilian. Determination of Optical Constants of Transparent Solids Based on Double Thickness Transmittance Model of Polynomial Root[J]. Infrared Technology, 2023, 45(9): 969

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