搜索

x

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

偏振光在非球形气溶胶中传输特性的Monte Carlo仿真

胡帅 高太长 刘磊 易红亮 贲勋

引用本文:
Citation:

偏振光在非球形气溶胶中传输特性的Monte Carlo仿真

胡帅, 高太长, 刘磊, 易红亮, 贲勋

Simulation of radiation transfer properties of polarized light in non-spherical aerosol using Monte Carlo method

Hu Shuai, Gao Tai-Chang, Liu Lei, Yi Hong-Liang, Ben Xun
PDF
导出引用
  • 非球形气溶胶是影响辐射传输的重要因素. 系统给出了矢量辐射传输Monte Carlo模型, 并验证了其准确度; 考虑入射光偏振态, 讨论了不同方向漫射光Stokes矢量对气溶胶形状的敏感性; 分析了气溶胶形状、入射光偏振状态对光波退偏振度、透过率及反射率的影响. 模拟仿真结果表明, 对于不同偏振态的入射光, 不同方向的Stokes矢量对气溶胶形状变化的灵敏程度并不一致, 而在天顶角0°方向区域,Q, U及V分量对形状的灵敏程度普遍不高; 气溶胶形状对反射漫射光退偏程度的影响强于透射漫射光, 入射光偏振态不同, 漫射光退偏程度也存在较大差异. 气溶胶形状对光波整体透过率与反射率影响显著, 且该影响随传播距离增大而增大; 入射光偏振态对透过率与反射率影响相对较小, 与自然光相比, 水平偏振光透过率略偏小, 反射率略偏大, 垂直偏振光反之, 圆偏振光与自然光的模拟结果相当.
    The shape of atmospheric aerosol is an important factor that influences radiation transfer. In this paper, a vector radiation transfer model based on Monte Carlo method is systematically introduced, and its accuracy is validated against the published results. and the sensitivity of Stokes vectors of transmitted and reflected light to aerosol shape is discussed when polarized light incidents. In addition, the influence of the particle shape on the depolarization ratio, transmission rate and the reflection rate is analyzed for incident light with different polarization states. Simulation results show that for the incident light in different polarization states, the sensitivity of the Stokes vectors of the diffuse light to different aerosol shapes is not the same in different viewing directions, and the Q, U, V elements of Stokes vector are all insensitive to the change of particle shape near the direction of the zenith angle 0°. It is evident that the aerosol shapes have a stronger influence on the depolarization ratio for reflected diffuse light compared with that for transmitted diffuse light, and there are also remarkable differences between the degree of depolarization of the diffuse light when the polarization states of the incident light are different. Results also show that the aerosol shape has a significant influence on the whole transmission rate and the reflection rate, and with the increasing of propagation distance, the influence also becomes more remarkable. Compared with particle shape, the influence of polarization states of incident light is relatively small, the transmission rate of horizontally-polarized light is slightly larger than that of unpolarized light, while for perpendicularly-polarized light, its results is opposite. For circularly polarized light, the results is almost the same as that of unpolarized light.
    [1]

    Han Y, Wang T J, Rao R Z, Wang Y J 2008 Acta Phys. Sin. 57 7396 (in Chinese) [韩永, 王体健, 饶瑞中, 王英俭 2008 物理学报 57 7396]

    [2]

    Wang HH, Sun X M 2012 Chin. Phys. B 21 054204

    [3]

    Shi G Y, Wang B, Zhang H, Zhao J Q 2008 Chinese Journal of Atmospheric Sciences 32 826 (in Chinese) [石广玉, 王标, 张华, 赵剑琦 2008 大气科学 32 826]

    [4]

    Mao J T, Li C C 2005 Acta Meteorologica Sinica 63 622 (in Chinese) [毛节泰, 李成才. 2005 气象学报 63 622]

    [5]

    Wu Z S, You J G, Yang R K 2004 Chinese Journal of Lasers 31 1075 (in Chinese) [吴振森, 由金光, 杨瑞科 2004 中国激光 31 1075]

    [6]

    Xu L, Gang T J F, Zhang P, Zhang D Z, Shi G Y 2002 Chinese Journal of Atmospheric Sciences 26 402 (in Chinese) [许黎, 冈田菊夫, 张鹏, 张代洲, 石广玉 2002 大气科学 26 402]

    [7]

    Fan M, Chen L F, Li S S, Tao J H 2012 Acta Phys. Sin. 61 204202 (in Chinese) [范萌, 陈良富, 李莘莘, 陶金花 2012 物理学报 61 204202]

    [8]

    Mishchenko M I 2009 Journal of Quantitative Spectroscopy & Radiative Transfer 110 808

    [9]

    Curtis D B, Meland B, Aycibin M 2008 Journal of Geophysical Research 113 D08210

    [10]

    Liou K N 1994 Atmospheric Research 31 271

    [11]

    Bai L, Tang S Q, Wu Z S, Xie P H, Wang S M 2010 Acta Phys. Sin. 59 1749 (in Chinese) [白璐, 汤双庆, 吴振森, 谢品华, 汪世美 2010 物理学报 59 1749]

    [12]

    Mishchenko M I, Travis L D 1997 Journal Of Geophysical Research 102 16989

    [13]

    Wang W, Chu J K, Chui Y, Zhi W 2013 Chinese Journal Of Lasers 40 0513001 (in Chinese) [王威, 褚金奎, 崔岩, 支炜 2013 中国激光 40 0513001]

    [14]

    Mishchenko M I, Hovenier J W, Travis L D 2000 Light Scattering By Nonspherical Particles-Theory, Measureflents, And Applications (New York: Academic Press) p400

    [15]

    Liou K N 2003 An Introduction To Atmospheric Radiation (San Diego: Academic Press) p100

    [16]

    Lacis A A, Mishchenko C J, Cairns M I 1998 Geophysical Research Letters 25 135

    [17]

    Zheng Q, Li P, Devaux C, Gu X F, Qiao Y L, Zhao F S, Chen H B 2004 Atmospheric Research 71 233

    [18]

    Evans K F, Stephens G L 1991 Journal of Quantitative Spectroscopy & Radiative Transfer 46 413

    [19]

    Hovenier J W 1971 Astronomy And Astrophysics 13 7

    [20]

    Schulz F M, Stamnes K 2000 Journal of Quantitative Spectroscopy & Radiative Transfer 65 609

    [21]

    Min Q L, Duan M Z 2004 Journal of Quantitative Spectroscopy & Radiative Transfer 87 243

    [22]

    Vaillon R, Wongb B T, Menguc M P. 2004 Journal of Quantitative Spectroscopy & Radiative Transfer 84 383

    [23]

    Ramella-Roman J C, Prahl S A, Jacques S L 2005 Optics Express 13 4420

    [24]

    Ramella-Roman J C, Prahl S A, Jacques S L 2005 Optics Express 13 10392

    [25]

    Siewert C E 1982 Astronomy and Astrophysics 109 195

    [26]

    Siewert C E 2000 Journal of Quantitative Spectroscopy & Radiative Transfer 64 227

    [27]

    Yi H L, Ben X, Tan H P 2014 Optics Express 21 26693

    [28]

    Ben X, Yi H L, Tan H P 2014 Applied Optics 53 388

    [29]

    Whitney B A 2011 Bull Astr Soc India 39 1

    [30]

    Hopcraft K I, Chang P C Y, Walker J G, Jakeman E 2000 Lecture Notes In Physics (Berlin: Springer-Verlag) p131

    [31]

    Yi H 1993 Foudation of Atmospheric Radiation (Beijing: Meteorology Express) p66[伊宏1993大气辐射学基础(北京: 气象出版社) p66]

    [32]

    Curtis D B, Aycibina M, Young M A, Grassian V H, Kleiber P D 2007 Atmospheric Environment 41 4748

  • [1]

    Han Y, Wang T J, Rao R Z, Wang Y J 2008 Acta Phys. Sin. 57 7396 (in Chinese) [韩永, 王体健, 饶瑞中, 王英俭 2008 物理学报 57 7396]

    [2]

    Wang HH, Sun X M 2012 Chin. Phys. B 21 054204

    [3]

    Shi G Y, Wang B, Zhang H, Zhao J Q 2008 Chinese Journal of Atmospheric Sciences 32 826 (in Chinese) [石广玉, 王标, 张华, 赵剑琦 2008 大气科学 32 826]

    [4]

    Mao J T, Li C C 2005 Acta Meteorologica Sinica 63 622 (in Chinese) [毛节泰, 李成才. 2005 气象学报 63 622]

    [5]

    Wu Z S, You J G, Yang R K 2004 Chinese Journal of Lasers 31 1075 (in Chinese) [吴振森, 由金光, 杨瑞科 2004 中国激光 31 1075]

    [6]

    Xu L, Gang T J F, Zhang P, Zhang D Z, Shi G Y 2002 Chinese Journal of Atmospheric Sciences 26 402 (in Chinese) [许黎, 冈田菊夫, 张鹏, 张代洲, 石广玉 2002 大气科学 26 402]

    [7]

    Fan M, Chen L F, Li S S, Tao J H 2012 Acta Phys. Sin. 61 204202 (in Chinese) [范萌, 陈良富, 李莘莘, 陶金花 2012 物理学报 61 204202]

    [8]

    Mishchenko M I 2009 Journal of Quantitative Spectroscopy & Radiative Transfer 110 808

    [9]

    Curtis D B, Meland B, Aycibin M 2008 Journal of Geophysical Research 113 D08210

    [10]

    Liou K N 1994 Atmospheric Research 31 271

    [11]

    Bai L, Tang S Q, Wu Z S, Xie P H, Wang S M 2010 Acta Phys. Sin. 59 1749 (in Chinese) [白璐, 汤双庆, 吴振森, 谢品华, 汪世美 2010 物理学报 59 1749]

    [12]

    Mishchenko M I, Travis L D 1997 Journal Of Geophysical Research 102 16989

    [13]

    Wang W, Chu J K, Chui Y, Zhi W 2013 Chinese Journal Of Lasers 40 0513001 (in Chinese) [王威, 褚金奎, 崔岩, 支炜 2013 中国激光 40 0513001]

    [14]

    Mishchenko M I, Hovenier J W, Travis L D 2000 Light Scattering By Nonspherical Particles-Theory, Measureflents, And Applications (New York: Academic Press) p400

    [15]

    Liou K N 2003 An Introduction To Atmospheric Radiation (San Diego: Academic Press) p100

    [16]

    Lacis A A, Mishchenko C J, Cairns M I 1998 Geophysical Research Letters 25 135

    [17]

    Zheng Q, Li P, Devaux C, Gu X F, Qiao Y L, Zhao F S, Chen H B 2004 Atmospheric Research 71 233

    [18]

    Evans K F, Stephens G L 1991 Journal of Quantitative Spectroscopy & Radiative Transfer 46 413

    [19]

    Hovenier J W 1971 Astronomy And Astrophysics 13 7

    [20]

    Schulz F M, Stamnes K 2000 Journal of Quantitative Spectroscopy & Radiative Transfer 65 609

    [21]

    Min Q L, Duan M Z 2004 Journal of Quantitative Spectroscopy & Radiative Transfer 87 243

    [22]

    Vaillon R, Wongb B T, Menguc M P. 2004 Journal of Quantitative Spectroscopy & Radiative Transfer 84 383

    [23]

    Ramella-Roman J C, Prahl S A, Jacques S L 2005 Optics Express 13 4420

    [24]

    Ramella-Roman J C, Prahl S A, Jacques S L 2005 Optics Express 13 10392

    [25]

    Siewert C E 1982 Astronomy and Astrophysics 109 195

    [26]

    Siewert C E 2000 Journal of Quantitative Spectroscopy & Radiative Transfer 64 227

    [27]

    Yi H L, Ben X, Tan H P 2014 Optics Express 21 26693

    [28]

    Ben X, Yi H L, Tan H P 2014 Applied Optics 53 388

    [29]

    Whitney B A 2011 Bull Astr Soc India 39 1

    [30]

    Hopcraft K I, Chang P C Y, Walker J G, Jakeman E 2000 Lecture Notes In Physics (Berlin: Springer-Verlag) p131

    [31]

    Yi H 1993 Foudation of Atmospheric Radiation (Beijing: Meteorology Express) p66[伊宏1993大气辐射学基础(北京: 气象出版社) p66]

    [32]

    Curtis D B, Aycibina M, Young M A, Grassian V H, Kleiber P D 2007 Atmospheric Environment 41 4748

  • [1] 徐菁焓, 吴国俊, 董晶, 于洋, 封斐, 刘博. 基于Stokes矢量差分法的背景光偏振特性研究. 物理学报, 2023, 72(24): 244201. doi: 10.7498/aps.72.20230639
    [2] 王红霞, 张清华, 侯维君, 魏一苇. 不同模态沙尘暴对太赫兹波的衰减分析. 物理学报, 2021, 70(6): 064101. doi: 10.7498/aps.70.20201393
    [3] 胡帅, 高太长, 李浩, 程天际, 刘磊, 黄威, 江诗阳. 低太阳高度角条件下的天空偏振模式模拟及大气折射影响研究. 物理学报, 2016, 65(1): 014203. doi: 10.7498/aps.65.014203
    [4] 孙贤明, 肖赛, 王海华, 万隆, 申晋. 高斯光束在双层云中传输的蒙特卡罗模拟. 物理学报, 2015, 64(18): 184204. doi: 10.7498/aps.64.184204
    [5] 管今哥, 朱京平, 田恒, 侯洵. 基于Stokes矢量的实时偏振差分水下成像研究. 物理学报, 2015, 64(22): 224203. doi: 10.7498/aps.64.224203
    [6] 胡帅, 高太长, 李浩, 刘磊, 程天际, 张婷. 大气折射对可见光波段辐射传输特性的影响. 物理学报, 2015, 64(18): 184203. doi: 10.7498/aps.64.184203
    [7] 焦学敬, 欧阳方平, 彭盛霖, 李建平, 段吉安, 胡友旺. 碳纳米管对接成异质结器件的计算模拟. 物理学报, 2013, 62(10): 106101. doi: 10.7498/aps.62.106101
    [8] 梁善勇, 王江安, 宗思光, 吴荣华, 马治国, 王晓宇, 王乐东. 基于多重散射强度和偏振特征的舰船尾流气泡激光探测方法. 物理学报, 2013, 62(6): 060704. doi: 10.7498/aps.62.060704
    [9] 梁善勇, 王江安, 张峰, 吴荣华, 宗思光, 王雨虹, 王乐东. 基于舰船尾流激光雷达的Monte Carlo模型及方差消减方法研究. 物理学报, 2013, 62(1): 015205. doi: 10.7498/aps.62.015205
    [10] 赵太飞, 柯熙政. Monte Carlo方法模拟非直视紫外光散射覆盖范围. 物理学报, 2012, 61(11): 114208. doi: 10.7498/aps.61.114208
    [11] 李三伟, 宋天明, 易荣清, 崔延莉, 蒋小华, 王哲斌, 杨家敏, 江少恩. 神光Ⅱ激光装置黑腔辐射温度定量研究. 物理学报, 2011, 60(5): 055207. doi: 10.7498/aps.60.055207
    [12] 周宇璐, 李仁顺, 张宝玲, 邓爱红, 侯氢. 材料中He深度分布演化的Monte Carlo模拟研究. 物理学报, 2011, 60(6): 060702. doi: 10.7498/aps.60.060702
    [13] 白璐, 汤双庆, 吴振森, 谢品华, 汪世美. 紫外波段多分散系气溶胶散射相函数随机抽样方法研究. 物理学报, 2010, 59(3): 1749-1755. doi: 10.7498/aps.59.1749
    [14] 黄朝军, 刘亚锋, 龙姝明, 孙彦清, 吴振森. 烟尘中电磁波传输特性的Monte Carlo模拟. 物理学报, 2009, 58(4): 2397-2404. doi: 10.7498/aps.58.2397
    [15] 郭宝增, 宫 娜, 师建英, 王志宇. 纤锌矿相GaN空穴输运特性的Monte Carlo模拟研究. 物理学报, 2006, 55(5): 2470-2475. doi: 10.7498/aps.55.2470
    [16] 关治强, 薛岩频, 林 海, 何贵丽, 吴晨旭. 钠离子浓度对核小体纤维结构影响的Monte Carlo模拟. 物理学报, 2006, 55(1): 460-464. doi: 10.7498/aps.55.460
    [17] 孙 霞, 尤四方, 肖 沛, 丁泽军. 电子束光刻的邻近效应及其模拟. 物理学报, 2006, 55(1): 148-154. doi: 10.7498/aps.55.148
    [18] 翁臻臻, 冯 倩, 黄志高, 都有为. 混合磁性薄膜矫顽力及阶梯效应的微磁学及Monte Carlo研究. 物理学报, 2004, 53(9): 3177-3185. doi: 10.7498/aps.53.3177
    [19] 姚细林, 王新兵, 赖建军. 微空心阴极放电的Monte Carlo模拟研究. 物理学报, 2003, 52(6): 1450-1454. doi: 10.7498/aps.52.1450
    [20] 季达人, 张剑波, 应和平. 三维随机点阵三态矢量Potts模型Monte Carlo模拟. 物理学报, 1992, 41(7): 1162-1166. doi: 10.7498/aps.41.1162
计量
  • 文章访问数:  5389
  • PDF下载量:  723
  • 被引次数: 0
出版历程
  • 收稿日期:  2014-08-19
  • 修回日期:  2014-11-13
  • 刊出日期:  2015-05-05

/

返回文章
返回