Calibration Method of Standard Scatterer Traceable to MOR Definition

Zhengjie Niu; Jian Zhang; Guoyu Zhang; Yangyang Zou; Zongtao Duan; Bin Zhao; Junjie Yang; Taiyang Ren; Xiaoxu Mo; Jianliang Zhang

doi:10.3788/CJL221353

[2] Griggs D J, Cummins K L, Maier M W et al. The first WMO inter-comparison of visibility measurement: final report[R](1989).

[3] Kim K W. The comparison of visibility measurement between image-based visual range, human eye-based visual range, and meteorological optical range[J]. Atmospheric Environment, 190, 74-86(2018).

[4] Wang Q M, Xie B L, Mei P C et al. Discussing the theory and calibration of the forward scatter meter[J]. Meteorological Hydrological and Marine Instrument, 18, 10-16(2001).

[5] Bloemink H I. KNMI visibility standard for calibration of scatterometers[EB/OL]. https://library.wmo.int/pmb_ged/wmo-td_1354_en/P3(26)_Bloemink-Ms_Netherlands.pdf#:~:text=The%20visibility%20standard%20of%20KNMI%20can%20be%20used

[6] Wang M, Liu W Q, Lu Y H et al. Calibration and correction methods for the transform coefficients of the atmospheric visibility system by aerosol forward-scattering theory[J]. Optical Technique, 34, 334-337(2008).

[7] Park S, Lee D H, Kim Y G. SI-traceable calibration of a transmissometer for meteorological optical range (MOR) observation[J]. Korean Journal of Optics and Photonics, 26, 73-82(2015).

[8] Tai H D, Zhuang Z B, Jiang L H et al. Visibility measurement in an atmospheric environment simulation chamber[J]. Current Optics and Photonics, 1, 186-195(2017).

[9] Chong W, Bian Z Q, Chu J H et al. A method for calibrating forward scatter meters indoors[J]. Metrologia, 57, 065030(2020).

[10] Zhang J, Zhang G Y, Zhang J L et al. Optical system error analysis for standard scattering plate calibration system used in calibration visibility meter[J]. Acta Photonica Sinica, 46, 0229002(2017).

[11] Zhang J, Zhang G Y, Xu D et al. Optical system design of the standard scattering plate calibration system used in calibration visibility meter[J]. Acta Photonica Sinica, 46, 0622001(2017).

[12] Yu R B. Study on theory and technology of particle measurement by improved small angle forward light scattering method[D](2002).

[13] Jonsson J C, Brandén H. Obtaining the bidirectional transmittance distribution function of isotropically scattering materials using an integrating sphere[J]. Optics Communications, 277, 228-236(2007).

[14] Winstanley J V, Adams M J. Point visibility meter: a forward scatter instrument for the measurement of aerosol extinction coefficient[J]. Applied Optics, 14, 2151-2157(1975).

[15] Tai H D, Zhuang Z B, Sun D S. Development and accuracy of a multipoint method for measuring visibility[J]. Applied Optics, 56, 7952-7959(2017).

[16] Zhang Y, Fu Y G, Zhang J et al. Optical system design of uniform lighting for standard scattering body calibration[J]. Journal of Changchun University of Science and Technology (Natural Science Edition), 42, 69-73, 89(2019).

[17] Zhao J, Xiao S R, Wu X H et al. Parallelism detection of visibility meter’s probe beam and the effect on extinction coefficient measurement[J]. Optik, 128, 34-41(2017).

[18] Zhang R, Zhang G Y, Zhang J et al. Uniform illumination method for large-area divergent solar simulators[J]. Optics and Precision Engineering, 27, 552-560(2019).

[19] Wang G M, Zhang G Y, Liu S et al. Optical system optimization of improving solar simulator irradiation uniformity[J]. Laser & Optoelectronics Progress, 51, 012204(2014).

[20] Peng H W, Su S, Zhang G Y et al. Research and design of variable curvature optical integrator for solar simulator[J]. Acta Optica Sinica, 42, 0708001(2022).

[21] Zou Y Y, Zhang L, Zhang J et al. Synchronous measurement method of a multi-angle scattered light field[J]. Applied Optics, 61, 2275-2283(2022).

[22] Liang J, Zhang G Y, Zhang J et al. Influence of transmissometers’ light source spectral distribution in measuring visibility[J]. Optics Communications, 499, 127294(2021).

[24] Ma H, Wang J B[M]. Instrument precision theory(2014).