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大气科学  2003 

现代大气物理学研究进展

DOI: 10.3878/j.issn.1006-9895.2003.04.14

Keywords: 气溶胶,,辐射强迫,辐射传输,大气组分探测

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Abstract:

简要论述现代大气物理学的主要研究内容与发展历史,重点介绍中国科学院大气物理研究所的科技工作者在云和辐射的相互作用、气溶胶的光学特性、气溶胶的辐射强迫、大气辐射传输、大气组分探测等方面的研究进展与成果,特别是创新性的研究成果.

References

[1]  周秀骥等编著,高等大气物理学(下册),北京:气象出版社,1991.
[2]  周秀骥、吕达仁、周明煜,中国大气物理学的发展与赵九章,赵九章纪念文集,叶笃正主编,北京:科学出版社,1997,87~92.
[3]  吕达仁,我国大气物理研究进展,物理,1999,28(11),654~661.
[4]  IPCC 2001,Climate Change:The Scientific Basis(edited by Houghton et al.),Cambridge University Press,2001.
[5]  Zhang G.T.,Xu L. S,and Chen H.B,A new parameterization schemes for shortwave radiative properties of water clouds,J.Appl.Meteor.,1995,34(1),101~106.
[6]  汪宏七、赵高祥,云微物理特性对云光学和辐射性质的影响,应用气象学报,1996,7(1),36-44.
[7]  王可丽,青藏高原地区云对地表净辐射的影响,高原气象,1996,15(3),269~275.
[8]  刘春雷、姚克亚,卷云中粒子的密度变化对可见光波段能量传输的影响,大气科学,1997,21(5),599~606.
[9]  陈洪滨,关于云和云天大气对太阳辐射的异常吸收,大气科学,1997,21(6),750-757.
[10]  Chen Hongbin,and Lu Daren,An explanationfor anomalous absorption of solar radiation by water clouds,in IRS\'96:Current Problems in Atmospheric Radiation(Eds.Smith and Stamnes),A Deepak Publishing,1997,1042~1045.
[11]  邱金桓、郑斯平、黄其荣等,北京地区对流层上部云和气溶胶的激光雷达探测,大气科学,2003,27(1),1-7.
[12]  白建辉、王庚辰等,参与光化学反应的物质对UV能量吸收的估算,环境科学研究,2002年,15(4),24~26.
[13]  白建辉、王庚辰等,太阳紫外辐射在大气中衰减的探讨,气候与环境研究,2002,7(4),440~446.
[14]  白建辉、王庚辰,大气中的水汽对太阳紫外辐射消光的可能机制分析,大气科学,1995,19(3),380~384.
[15]  毛节泰等,中国气溶胶研究综述,气象学报,2002,60(5),625-634.
[16]  吕达仁、周秀骥、邱金桓,消光一小角散射综合遥感气溶胶分布的原理与数值试验,中国科学,1981,12,1516~1523.
[17]  邱金桓、汪宏七、周秀骥等,消光一小角散射法遥感气溶胶谱分布的实验研究,大气科学,1983,7,33~41.
[18]  Qiu Jinhuan,Wang Hongqi,Zhou Xiuji et al.,Experimental study of remote sensing of atmospheric aerosol size distribution by combined solar extinction and forward scattering method,Adv.Atmos.Sci.,1985,2(3),307~315.
[19]  邱金桓、周秀骥,角散射法遥感气溶胶折射率的理论分析,中国科学,1984,962~970.
[20]  Qiu Jinhuan, and Zhou Xiuji, Simultaneous determination of aerosol size distribution and refractive index and surface albedo from radiance-part Ⅰ: Theory, Adv. Atmos. Sci. , 1986, 3 (2), 162~171.
[21]  Qiu Jinhuan, Zhou Xiuji, Sun Jinghui et al. , Simultaneous determination of the aerosol size distribution, refractive index, and surface albedo from radiance data, in Atmospheric Radiation : Progress and Process, edited by K. -N. Liou and Zhou Xiuji, Science Press, 1987, 550~556.
[22]  邱金桓、孙金辉、夏其林等,北京大气气溶胶光学特性的综合遥感和分析,气象学报,1988,46(1),49~58.
[23]  邱金桓,从全波段太阳直接辐射确定大气气溶胶光学厚度Ⅰ:理论,大气科学,1995,19(3),385~394.
[24]  邱金桓、杨景梅、潘继东,从全波段太阳直射辐射确定大气气溶胶光学厚度Ⅱ:实验研究,大气科学,1995,19(4),586~596.
[25]  Qiu Jinhuan,A method to determine atmospheric aerosol optical depth usingtotal direct solar radiation,1998,J.Atmos.Sci.,55,734~758.
[26]  邱金桓,大气气溶胶光学厚度的宽带消光遥感方法及其应用,遥感学报,1997,1(1),15~23.
[27]  Qiu Jinhuan,Broadband Extinction Method to Determine Atmospheric Aerosol Optical Properties,Tellus,2000,53B,72~82.
[28]  邱金桓、杨理权,从宽带太阳直接辐射小时或日曝辐量反演气溶胶光学厚度研究,大气科学,2002,26(4),449~458.
[29]  Luo Yunfeng,Lu Daren,Zhou Xiuji et al.,Characteristics of the spatial distribution and yearly variation of aerosol optical depth over Chinainlast 30 years,J.Geophys.Res.,2001,106(D13),14501~14513.
[30]  罗云峰、吕达仁、周秀骥等,30年来我国大气气溶胶光学厚度平均分布特征析,大气科学,2002,26,721~730.
[31]  罗云峰、李维亮、周秀骥,20世纪80年代中国地区大气气溶胶光学厚度的平均状况分析,气象学报,2001,59(1),77~86.
[32]  Qiu Jinhuan,and Yang Liquan,Variation characteristics of atmospheric aerosol optical depths and visibility in North Chana during 1980-1994,Atmospheric Environment,2000,34,603~609.
[33]  邱金桓、潘继东、杨理权等,中国10个地方大气气溶胶1980~1994年间变化特征研究,大气科学,1997,21(6),725~733
[34]  李放、吕达仁,北京大气气溶胶光学厚度中长期变化特征,大气科学,1996,20,385~398.
[35]  林海、魏重,北京地区太阳可见光辐射与大气透明度的初步测量,大气科学,1976,(2),52~61.
[36]  张金定、邱金桓、汪宏七,南极长城站云和气溶胶光学特性的遥感和分析,南极研究,1991,3(1),47~53.
[37]  王庚辰、许黎、吕位秀等,高山地区太阳可见光辐射大气消光的观测研究,大气科学,1979,3(4),343~351.
[38]  王庚辰,大气气溶胶光学厚度和Angstrom公式的适用范围,大气科学,1982,6(1),52-57.
[39]  陈洪滨、吕达仁、许丽生,利用SAGEⅡ资料分析皮纳图博火山爆发前后平流层气溶胶的变化特征,科学通报,1994,39(22),2084~2087.
[40]  杨理权、邱金桓、赵延亮,火山气溶胶对北京地区臭氧总量变化趋势的影响,大气科学,1998,22,286~292.
[41]  王栋梁、邱金桓,塔克拉玛干沙漠春季大气气溶胶光学特性研究,大气科学,1988,12(1),75~81.
[42]  尉东胶、邱金桓,大气气溶胶折射率虚部的宽谱反演方法Ⅰ.理论,大气科学,1998,22(5),677-685.
[43]  尉东胶、邱金桓,大气气溶胶折射率虚部的宽谱反演方法Ⅱ.对比实验与应用研究,大气科学,2000,24(2),677~685.
[44]  李放、吕达仁,利用消光谱反演气溶胶折射率的一种新方法及其应用,遥感技术与应用,1995,10(2),168~174.
[45]  中国科学院大气物理所集刊第1号,激光在气象探测中的应用,北京:科学出版社,1973.
[46]  孙景群,激光大气遥感,第一版,北京:科学出版社,1986,269pp.
[47]  Qiu Jinhuan,and Lu Daren,On Lidar application for remote sensing of the atmosphere,Adv.Atmos.Sci.,1991,8,369~378.
[48]  邱金桓、黄其荣、赵红接等,激光探测机场斜视跑道视程的实验研究,大气科学,1988,12(3),291~300.
[49]  白宇波、石广玉、田村耕一等,拉萨上空大气气溶胶光学特性的雷达探测,大气科学,2000,24(4),559-567.
[50]  白字波,拉萨上空气溶胶激光雷达与臭氧高空气球探测,北京大学博士学位论文,2000.
[51]  周诗健、陶丽君、朱文琴,几种激光探测大气消光系数方法的比较,大气科学,1981,5(4),444~448.
[52]  孙金辉、邱金桓、夏其林等,激光探测平流层气溶胶层后向散射系数分布,大气科学,1986,10(4),431~436.
[53]  孙金辉、邱金桓、夏其林、张金定,激光探测平流层火山云,科学通报,1993,38(7),631~633.
[54]  孙金辉、夏其林、邱金桓等,激光雷达探测南极平流层云,南极研究,1995,7(1),62~68.
[55]  邱金桓、赵燕曾、汪宏七,激光探测沙暴过程中的气溶胶消光系数分布,大气科学,1984,8(2),205~210.
[56]  邱金桓、孙金辉,沙尘暴的光学遥感及分析,大气科学,1994,18(1),1~10.
[57]  Qiu Jinhuan, and Yang Liquan, Lidar monitoring of Aerosol and Yellow sand in Beijing, IEEE, 1999, 37,1056~1057.
[58]  Qiu Jinhuan, Sensitivity of Lidar Equation Solution to Boundary values and determination of the values, Adv.Atmos. Sci., 1988, 5, 229~241.
[59]  Qiu Jinhuan, Constraint inversion algorithm of lidar equation for deriving aerosol optical property, Adv. Atmos. Sci., 1999, 16 (2), 215~228.
[60]  Qiu Jinhuan, Two-wavelength lidar measurement of cloud-aewrosol optical properties, Adv. Atmos. Sci. ,1995, 12 (2), 176~177.
[61]  邱金桓、吕达仁,空间激光雷达遥感大气气溶胶分布的反演算法初步研究,大气科学,1998,特刊,258~270.
[62]  吕达仁,考虑二次散射的激光雷达近似方程与低能见度的激光探测,地球物理学报,1982,25(1),1~9.
[63]  段民征,陆地上空大气气溶胶和地表反照率的同时反演--卫星标量辐射和偏振信息的联合利用,中国科学院大气物理研究所博士学位论文,2001.
[64]  韩志刚,草地上空对流层气溶胶特性的卫星偏振遥感--正问题模式系统和反演初步实验,中国科院大气物理研究所博士学位论文,1 999.
[65]  Zhang Hua, and Shi Guangyu, Numerical explanation for accurate radiative cooling rates resulting from the corrected k-distribution hypothesis, J. Quant. Spec. Rad. Trans., 2002, 74, 299~306.
[66]  张华、石广玉,一种快速高效的逐线积分大气吸收计算方法,大气科学,2002,24(1),111~121.
[67]  邱金桓,辐射传输方程的一个改进算法,大气科学,1985,10,150~257.
[68]  Qiu Jinhuan,An improved model of surface BRDF-atmospheric coupled radiation,IEEE Trans.Remote Sensing,2001,39,181~187.
[69]  邱金桓,一个新的双向反射地表-大气辐射耦合模式,中国科学,2000,30,656~662.
[70]  Qiu Jinhuan, Modified Delta-Eddington approximation for solar reflectance, transmission, and absorption calculation, J. Atmos. Sci., 1999, 56, 2955~2961.
[71]  Qiu Jinhuan, A simple yet more accurate method to calculate solar radiative flux in the inhomogeneous atmosphere, Adv. Atmos. Sci. , 2002, 19 (3), 433~447.
[72]  邱金桓,用于空间对地遥感的一个参数化辐射传输计算模式,大气科学,1998,22,649~658.
[73]  王庚辰,大气气溶胶浓度及其日变化特征,环境科学情报,1984,9,28~34.
[74]  雷文芳、任丽新等,黑河地区沙漠气溶胶浓度和谱分布特征,高原气象,1993,12(2),170~179.
[75]  王庚辰、孔琴心等,秋末冬初大气中颗粒物的变化,大气环境科学技术进展,1998,11,210~215.
[76]  游荣高、任丽新,北京采暖期间和采暖期前大气气溶胶物理特性的对比研究,大气科学,1990,14(3),345~363.
[77]  You Ronggao, Ren Lixin et al. , The measurements and analysis of the physical characteristics of atmospheric aerosol on the surface of the west pacific ocean, Annual Report, Institute of Atmospheric Physics, Academia Sinica, 1990, 9 (2), 126~129.
[78]  杨景梅、邱金桓,我国可降水量同地面水汽压关系的经验表达式,大气科学,1996,20(5),620~626.
[79]  杨景梅、邱金桓,用地面湿度参量计算我国整层大气可降水量及有效水汽含量方法的研究,2002,26(1),9~22.
[80]  周秀骥等,大气微波辐射及遥感原理,北京:科学出版社,1982.
[81]  黄润恒、魏重,地面1.35厘米辐射计系统实时遥感分层水汽总量的实验研究,大气科学,1986,10(3),232~239.
[82]  薛永康等,蒙特卡洛法在微波遥感水汽垂直廓线上的应用,中国科学,1981,11,1367~1375.
[83]  薛永康等,地对空微波遥感水汽垂直廓线的方法,大气科学,1983,8,115~124.
[84]  魏重、薛永康、朱晓明等,1.35厘米波长地面微波辐射计探测大气中水汽含量和分布,大气科学,1984,8(4), 418-426.
[85]  Wei Chong, Lin Hai et al. , Microwave remote sensing of atmospheric water vapor and cloud liquid water over equatorial Western Pacific Ocean with a ship-borne dual-wavelength, in: Microwave Remote Sensing of the Earth System, Ed. By Alain Chedin, Deepak publishing, 1989, 111~126.
[86]  Wang Gengchen, E. I. Grechko et al. , Results of simultaneous measurements of CO in the atmosphere and submicron aerosol in the surface layer over Beijing, Atmospheric and Ocean Physics, 2001, 37, 1~9.
[87]  Wang Gengchen, E. I. Grechko et al. , Measurements of CO and aerosol in the atmosphere in Beijing, Optics of AtmosphereandOcean, 2002, 15 (12), 1~7 (in Russian).
[88]  孔琴心、王庚辰等,双波长He-Ne激光甲烷探测系统,环境科学丛刊,1992,13(4),33~37.
[89]  孔琴心、王庚辰等,大气中甲烷浓度的差分吸收测量,应用气象学报,1993,4(2),24~28.
[90]  Wang Gengchen,and Kong Qnxin,A study on NO and NO2 absorption properties by usingline-tunable CO2laser,Adv.Atmos.Sci.,1987,4(2),218~224.
[91]  王庚辰、孔琴心,用选支CO激光研究NO,NO2气体的吸收特性,大气科学,1984,8(2),219~226.
[92]  王庚辰、孔琴心等,用选支CO激光器测量大气中NO的浓度,环境科学,1984,1,19~21.
[93]  Wang Gengchen,and Kong Qnxin,An experimental study on absorption properties of NO,NO2,NH3,CO2and H2O by using COlaser,Adv.Atmos.Sci.,1984,1(1),112~118.
[94]  杜睿、王庚辰、吕达仁等,内蒙古羊草草原温室气体交换通量的日变化特征研究,草地学报,1998,6(4),258~264.
[95]  杜睿、王庚辰、吕达仁,内蒙古典型草原土壤N2O产生的机理探讨,中国环境科学,2000,20(5),387~391.
[96]  杜睿、王庚辰、吕达仁等,放牧对草原土壤N2O产生及微生物的影响,环境科学,2001,22(4),11~15.
[97]  陈洪滨、孙海冰,冰-水球形粒子在太阳短波段的吸收与衰减,大气科学,1999,23,233~238.
[98]  马晓燕、季国良,中国地区云对太阳短波辐射吸收的研究,大气科学,2000,24(4),527~539.
[99]  Qiu Jinhuan, Sun Jinhui, Xia Qiling et al. , Simultaueous determination of aerosol size distribution and refractive index and surface albedo from radiance-Part Ⅱ: Application, Adv. Atmos. Sci. , 1986, 3, 341~348.
[100]  Qiu Jinhuan, Simultaueous determination of aerosol size distribution and refractive index and surface albedo from radiance-Part Ⅲ: Parameterization and application, 1988, Adv. Atmos. Sci. , 5 (3), 312~323.
[101]  罗云峰、周秀骥、李维亮,大气气溶胶辐射强迫及气候效应的研究现状,地球科学进展,1998,13(6),572~581.
[102]  李放、吕达仁,珠穆朗玛峰地区大气气溶胶光学特性,大气科学,1995,19(6),755~763.
[103]  Menon,S,J.Hansen,L. Nazarenko et al.,Climate effects of black carbon aerosols in China and India,Science,2002,297,2250~2253.
[104]  吕达仁、魏重、林海等,低层大气消光系数分布的激光探测,大气科学,1977,(3),199~205.
[105]  吕达仁、魏重、张健国,激光探测能见度的实验研究,大气科学,1976,(1),55~61.
[106]  赵燕曾、陶丽君、郝南军,激光探测斜视能见度的初步实验,大气科学,1980,4(2),168-175.
[107]  邱金桓、H. Quenzel、M. Wiegner,参数化的多次散射雷达方程和它的反演理论Ⅰ.方程,大气科学,1992,16(3),229~239.
[108]  邱金桓、吕达仁,参数化的多次散射雷达方程和它的反演理论Ⅱ.反演理论,大气科学,1992,16(4),415~426.
[109]  Yang Shu,Zhou Xiujie,and Zhao Yangzeng,Atheoretical study of multi-wavelength Lidar exploration of optical Properties of atmospheric aerosol,Adv.Atmos.Sci.,1986,3,23~38.
[110]  吕达仁、魏重,大气气溶胶对激光的消光的理论计算,大气科学,1978,2,145~152.
[111]  孙景群,激光遥测大气消光系数的误差分析,气象学报,1989,47,332~336.
[112]  Qiu Jinhuan,A method for spacebome synthetic remote sensing of aerosol optical depth and vegetation reflectance,Adv.Atmos.Sci.,1998,15(1),17~30.
[113]  吕达仁、李卫、章文星,地球环境和气候变化探测与过程研究:大气气溶胶光学厚度与地表反射率的同时遥感-原理和初步数值试验,北京:气象出版社,1998.
[114]  阎帮华,地气系统中太阳辐射的偏振特性及其在遥感中的应用研究,中国科学院大气物理研究所博士学位论文,1997.
[115]  夏祥鳌、王明星、张仁健,基于卫星观测的中国地区沙尘气溶胶时空变化特征分析,过程工程学报,2002,2,264~267.
[116]  Qiu Jinhuan and Nobuo Takeuchi,Effects of aerosol inhomogeneity on satellite optical remote sensing,Adv.Atmos.Sci.,2001,18(4),539~553.
[117]  吴北婴、吕达仁,用Mote-Carlo方法模拟火山爆发后的曙幕光特征,大气科学,1989,13,204~213.
[118]  Wu Beiying, and Lu Daren, Retrieval of stratospheric background aerosol scattering coefficient from twilight polarization, Appl. Opt., 1988, 27, 4899~4906.
[119]  Wu Beiying, and Lu Daren, Monitoring the evolution of 1991 Pinatubo aerosols over Beijing by combined twilight observation with lidar detection, J. Geophys. Res. , 1993, 98, 22995~23001.
[120]  Lu Daren, Liu Jinli, and Li Fang, Ground-based remote sensing of the size distribution of the Pinatobu\'s volcanic cloud, Acta Meteorologica Sinica, 1994, 8, 117~120.
[121]  关虹、吕达仁、吴北婴,用曙幕光时的天光光强反演平流层气溶胶散射系数廓线,大气科学,1992,16,225~230.
[122]  周秀骥、李维亮、罗云峰,中国地区大气气溶胶辐射强迫及区域气候效应的数值模拟,大气科学,1998,22,418~427.
[123]  石广玉、王喜红、张立盛等,人类活动对气候影响的研究对东亚和中国气候变化的影响,气候与环境研究,2002,7(2),255-266.
[124]  胡荣明、石广玉,中国地区气溶胶的辐射强迫及其气候响应试验大气科学,1998,22(6),919~925.
[125]  胡荣明、石广玉,平流层气溶胶的辐射强迫及其气候响应的水平二维分析.大气科学,1998,22(1),18~24.
[126]  王喜红、石广玉,东亚地区云和地表反照率对硫酸盐直接辐射强迫的影响,高原气象,2001,20(3),258-263.
[127]  王喜红、石广玉,东亚地区人为硫酸盐的直接辐射强迫,气象学报,2002,60(6),758-765.
[128]  王喜红、石广玉、马晓燕,东亚地区对流层人为硫酸盐辐射强迫及其温度响应,大气科学,2002,26(6),752~760.
[129]  张立盛、石广玉,硫酸盐和烟尘气溶胶辐射特性及辐射强迫的模拟估算,大气科学,2001,25(2),231~242.
[130]  张立盛、石广玉,相对湿度气溶胶辐射特性和辐射强迫的影响,气象学报,2002,60(2),230~237.
[131]  于秀兰、石广玉,平流层温度调整后的辐射强迫的简化计算,高原气象,2001,20(3),271~274.
[132]  Wu Beiying, Lu Daren, and Fu Qiang, Radiative effect of Pinatubo aerosols in the middle latitudes of the Northern hemisphere, Theor. PPL. Climatol., 1995, 51, 13~23.
[133]  Qiu Jinhuan, and Wang Kaixiang, A study of the radiation-climate effect of aerosol over Beijing area, Adv.Atmos. Sci, 1993, 10, 147~154.
[134]  Shi Guangyu, An Accurate Calculation and Representation of the Infrared Transmission Function of the Atmospheric Constituents, Ph. D. Thesis, 1981, Tohoku University of Japan, 191pp.
[135]  石广玉,计算9.6m臭氧带冷却率的一种新方法,中国科学(B辑),1984,(4),378~385.
[136]  Shi Guangyu,Effect of atmospheric overlapping bands and their treatment on the calculation of thermal radiation,Adv.Atmos.Sci.,1984,2,246~255.
[137]  石广玉,大气辐射计算的吸收系数分布模式,大气科学,1998,22(4),659~676.
[138]  Zhang Hua, and Shi Guangyu, An improved approach to diffuse radiation, J. Quant. Spec. Rad. Trans.,2001, 70, 367~372.
[139]  Qiu Jinhuan,An approximate expression of the sky radiace in almucantar and its application,Adv.Atmos.Sci.,1986,3(1),1~9.
[140]  王宏七、赵高祥,在各向异性散射大气中用离散坐标法进行辐射强度计算,中国科学(B),1989,19,1330~1339.
[141]  吕达仁、段民征,卫星对地观测中大气与地表辐射贡献的参数化,大气科学,1998,22,638~648.
[142]  王普才、吕达仁,卫星遥感地面紫外辐射的参数化方法,大气科学,2001,25(1),1~13.
[143]  段民征、吴北婴、吕达仁,海洋-大气耦合辐射传输模式,大气科学,1997,21,734~742.
[144]  Yang Jingmei,and Qiu Jinhuan,An easy algorithmfor solving radiativetransfer equationin clear atmosphere,Adv.Atmos.Sci.,1992,9(4),483~490.
[145]  刘广员,卫星对地遥感应用中的邻近效应问题,中国科院大气物理研究所博士学位论文,2002.
[146]  吴北婴等编著,大气辐射传输实用算法,北京:气象出版社,1998.
[147]  王庚辰、张文、孔琴心,长光程变温样品池的研制,仪器仪表学报,1988,4,431~435.
[148]  王庚辰、孔琴心等,CO2 2.7μm和4.3μm带总吸收的实验研究,中国气候与海平面研究进展(一),北京:海洋出版社,1990,84~85.
[149]  王庚辰,孔琴心等,大气中温室气体的光谱特征,全球气候变暖,施雅风等主编,济南:山东科学技术出版社,1992,62~169.
[150]  孔琴心、王庚辰,大气臭氧9.6μm带和4.8μm带的总吸收研究,大气科学文集,北京:科学出版社,1990,303pp.
[151]  王庚辰、王明星等,8-13微米红外辐射大气传输研究的一些结果,红外物理与技术,1981,10(5),7~12.
[152]  一室103组,8-14微米红外辐射大气衰减的研究,大气物理所集刊,第5号,北京:科学出版社,1977.
[153]  王庚辰、任丽新,环境遥感中的大气效应,遥感文选,北京:科学出版社,1981.
[154]  王庚辰,大气气溶胶对8-13μm窗区辐射的衰减,大气科学,1982,6(3),333-337.
[155]  王庚辰,红外窗区范围内的大气光学特性,红外研究,1983,2(3),205~218.
[156]  周凤仙、任丽新、赵高祥等,大气对红外窗区遥感的影响,大气科学,1978,2(2),153~158.
[157]  孔琴心、张文等,6328A激光大气衰减的实验研究,应用激光,1982,2(3),31~33.
[158]  孔琴心、张文等,选支CO激光器谱线强度及其变化,应用激光,1982,2(6),19~20.
[159]  孔琴心、王庚辰,选支CO激光86条发射谱线大气透过率的研究,大气科学,1983,7(1),102~108.
[160]  王庚辰、孔琴心,CO激光大气传输的某些特征,红外研究,1984,3(4),354.
[161]  王庚辰,大气气溶胶浓度及其谱分布的某些特征,大气科学,1982,6(2),211~216.
[162]  Kong Qinxin, Xiong Xiaozhen et al. Direct solar spectral measurements in desert area, Advances in HEIFE Research, Special Issue 1 (1987-1994), China Meteorological Press, 1994.
[163]  任丽新、J.W.温彻斯特等,北京冬春季节大气气溶胶化学成分的研究,大气科学,1982,6(1),11-17.
[164]  任丽新、王明星、邬虹等,重庆地区大气气溶胶的物理化学特性及其对酸雨形成的作用,大气科学,1988,特刊,236~244.
[165]  Ren Lixin,Lei Wenfang et al. The Physical and Chemical Characteristics of Desert Aerosols in the HEIFE Region,Journal ofthe Meteorological Society ofJapan,1995,73(6),1263~1268.
[166]  谢骅、王庚辰等,北京市大气中细粒态气溶胶的化学成分研究,中国环境科学,2001,21(5),432-435.
[167]  王庚辰、孔琴心等,北京地区大气中黑碳气溶胶及其变化特征,过程工程学报,2002,增刊.
[168]  Ren Lixin,You Ronggao et al. Vertical distribution of atmospheric aerosol at altitudesfrom 0 to 30 km,Kexue Tongbao,1985,30(6),781~785.
[169]  任丽新、游荣高等,0-30公里大气气溶胶的垂直分布,科学通报,1984,18,1121~1124.
[170]  You Ronggao, Ren Lixin et al. , The balloon observations and study of continental atmospheric aerosols in the during 1984-1986, Annual Report, Institute ofAtmosphericPhysics, Academia Sinica, 1990, 9 (2), 126~129.
[171]  Shi Guangyu, Li Xu et al. , Balloon observation of vertical distribution of ozone and aerosol in atmosphere from O to 30km, KexueTongbao, 1987, 32 (16), 1125~1129.
[172]  孔琴心、任丽新,由太阳近红外直接辐射强度遥测大气水汽总含量,大气科学,1983,7(3),341~346.
[173]  Xiong Xiaozhen, Kong Qinxin et al. , Computation of the total ozone amount and water vapor content of atmosphere in column above Ningchuan district by the direct solar spectrum, Advances in HEIFE Research, Special Issue 1 (1987-1994), China Meteorological Press, 1994.
[174]  Wang Gengchen, Kong Qinxin et al. , Remote sensing of H2O and CO in the atmosphere by ground-based solar spectrophotometer, In: Current Problem in Atmospheric Radiation, Edit by William L. Smith and Y. M.Timofeyev, A. DeepakPub. Hampton, Verginia, 2001, 893~896.
[175]  魏重、林海等,微波遥感海上大气可降水和云液态含水量,大气科学,1989,13(1),101~107.
[176]  魏重、忻妙新、林海等,西太平洋热带海域水汽和云中液态水含量的统计特征,大气科学,1989,13(2),199~203.
[177]  魏重、忻妙新、王普才等,西太平洋赤道海域上空可降水和云液态水的遥感分析,大气科学,1992,16(1),1~10.
[178]  魏重、宣越健,TOGA COAREIOP期间西太"暖池"上空大气水的统计特征,科学通报,1996,41(21),1973-1976.
[179]  魏重、吴玉霞、王普才等,西太暖池和北京地区大气水特征的地基遥感测量,大气科学,2000,24(5),703-714.
[180]  孔琴心、王庚辰,用长程吸收法测量大气中的水汽含量,气象学报,1984,42(1),116~124.
[181]  王庚辰,喇曼散射法测量大气中水汽含量的潜力分析,大气科学,1988,特刊,310~317.
[182]  王庚辰,我国大气臭氧探测技术的进展现状,地球科学进展,1991,6(6),31~36.
[183]  魏鼎文,魏鼎文论文选集,武汉:武汉大学出版社,1995.
[184]  王庚辰、孙秀兰,根据大气光学厚度的变化来推断臭氧总含量,气象学报,1983,40(2),234~241.
[185]  孔琴心,日环食期间地面臭氧和太阳辐射,中国日环食观测研究文集,北京:科学出版社,1990.
[186]  孔琴心、刘广仁,温室气体的日食效应,日全食与近地环境(1997年3月9日全食观测文集),北京:科学出版社,1999.
[187]  孔琴心、刘广仁等,华北兴隆地区地面O3浓度及其变化特征,温室气体浓度和排放监测及相关过程,北京:中国环境科学出版社,1996.
[188]  白建辉、王庚辰,大气臭氧总量的一个统计计算方法,环境科学学报,1994,14(4),397~402.
[189]  白建辉、王明星、陈辉等,地面臭氧的变化规律和计算方法的初步研究1.紫外波段,气候与环境研究,2002,7(1),49~60.
[190]  白建辉、王庚辰、陈辉等,地面臭氧的变化规律和计算方法的初步研究Ⅱ.可见光波段,气候与环境研究,2002, 7 (3), 311~320.
[191]  Qiu Jinhuan, Zheng Siping et al. , Lidar measurements of atmospheric aerosol and ozone over Beijing and Antarctic, ILRC99, Japan, Abstracts of paper, 1999, 73~74.
[192]  Qiu Jinhuan, Error of DIAL-measured ozone concentration and a three-wavelength inversion technique, Science inChina, 1993, 36, 1381~1390.
[193]  Qiu Jinhuan, Zheng Siping et al. , A four-wavelength lidar measurements of uppertropospheric and stratospheric aerosol and ozone in Beijing, ILRC21, Canada, Proceedings, 2002, 401~402.
[194]  王庚辰,我国中层大气臭氧研究的某些进展,科技导报,1996,8,35~37.
[195]  王庚辰,大气臭氧垂直分布的直接测量,科学通报,1992,37(9),863~864.
[196]  王庚辰、孔琴心等,我国大气臭氧探空系统的研制和应用,地球科学进展,2003,18(3),(印刷中).
[197]  孔琴心、王庚辰等,大气臭氧垂直分布的电化学测量,大气科学,1992,16(5),636~640.
[198]  孔琴心、王庚辰等,球载电化学O3探测系统,气象水文海洋仪器,1996,1,26~33.
[199]  孔琴心、刘广仁等,南极中山站上空大气臭氧的直接测量,南极研究,1996,8(1),59~64.
[200]  孔琴心、刘广仁等,1993年春季南极中山站上空大气臭氧的观测分析,大气科学,1996,20(4),395~400.
[201]  赵永净、孔琴心等,南极昭和站上空O3变化与NAT凝结温度的关系,应用气象学报,1996,7(1),116~123.
[202]  王庚辰,大气中CO2浓度的全球监测现状,地球科学进展,1994,9(4),70~77.
[203]  王庚辰、温玉璞等,中国大陆上空CO2本底浓度及其变化,科学通报,2002,47(10),780-783.
[204]  Wang Gengchen, Wen Yupu et al. , CO2 background concentration in the atmosphere over the Chinese mainland, Chinese Science Bulletin, 2002, 47 (14), 1217~1220.
[205]  Wang Gengchen, Kong Qinxin et al. , Monitoring of total CO amount in the atmosphere using solar spectroscopy, In: Optical Remote Sensing of the Atmosphere and Clouds, Edit. Jinxue Wang, Publish by SPIE, 1998.
[206]  杜睿、王庚辰、吕达仁等,内蒙古温带半干旱羊草草原温室气体N2O和CH4通量变化特征,自然科学进展,2001,11(6),595~601.
[207]  杜睿、王庚辰、吕达仁等,静态箱法原位观测草原CO2通量的探讨,生态学报,2002,22(12),2167~2174.
[208]  白建辉、王明星、JohnGraham and Ronald G.Prinn,黄忠良,森林排放非甲烷碳氢化合物的初步研究,大气科学,1998,12(2),247~251.
[209]  白建辉、王庚辰等,内蒙古草地挥发性有机物的预研究,科学技术与工程,2003,3(12),179~181.

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