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个人信息Personal Information
教授
教师拼音名称:caonianwen
所在单位:大气物理学院
办公地点:气象楼1203
性别:男
职称:教授
学科:大气科学
个人简介Personal Profile
研究方向: 激光大气探测
邮 箱: nwcao@nuist.edu.cn ; nwcaomail@163.com
主要研究领域: 1.激光大气探测研究 2.大气微量元素遥感
教育背景:
1999.7 中国科学院光学专业博士研究生毕业, 获理学博士学位;
1996.7 中国科学院光学专业硕士研究生毕业, 获理学硕士学位;
1987.7 安徽师范大学物理专业毕业.
工作经历:
1999.8-2001.12 日本东京电力中央研究所 特别契约研究员;
2001.12-2004.4 美国阿拉斯加大学、地球物理研究所 Assistant Professor;
2007.3-2008.4 美国纽约城市大学 高级访问教授
2003.4-今 南京信息工程大学 教授
社会兼职:
中国激光、物理学报审稿专家
Applied Optics会员
国家自然科学基金评审专家
博士后基金评审专家
近期科研成果
SCI:
Ji Shen, Nianwen Cao,Yirui zhao, Distribution and Potential Sources of Surface Aerosol Particles in the Yangtze River Delta Region, China, CLEAN-SOIL AIR WATER 2023 51(1).P12
Pengcheng Jia, Nianwen Cao, Shaobo Yang,Real-time hourly ozone prediction system for Yangtze River Delta area using attention based on a sequence to sequence model,ATMOSPHERIC ENVIRONMENT,2021 244 P11
Ji Shen, Nianwen Cao , Accurate retrieval of aerosol lidar ratio by Raman-Mie lidar in Nanjing, OPTIK, 2021, 227 p7.
Ji Shen, Nianwen Cao.Comprehensive observation and analysis of aerosol optical properties and vertical distribution in Nanjing, China. Atmospheric Environment(2020).
Ji Shen, Nianwen Cao.Accurate inversion of tropospheric aerosol extinction coefficient profile by Mie-Raman lidar. Optik, 184(184(2019)): 153-164.
Nianwen Cao, Sipeng Yang. Accuracy calculation for lidar ratio and aerosol size distribution by dual‑wavelength lidar. APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, 125(9): 10p
Sipeng Yang, Nianwen Cao, Xiuyu Song. CORRECTION OF THE FERNALD METHOD USING REAL-TIME AVERAGE LIDAR RATIOS WITH MIE–RAYLEIGH–RAMAN Lidar. JOURNAL OF APPLIED SPECTROSCOPY, 86(3): 533-537
Nianwen Cao, New Lidar technology for aerosol measurements and extinction coefficient inversion, OPTIK, 2015. 126 (21), 3053-3057.
Nianwen Cao, Shaobo Yang, Yinhai Xie, Cunxiong Zhu, Aerosol profiling by Raman lidar in Nanjing, China, Optics and Spectroscopy,2015. 119 (4), 700-707.
Nianwen Cao, Cunxiong Zhu, Shaobo Yang, Yinhai Xie, Fengkai Yang, Identification of aerosol species using polarization lidar, Optics and Spectroscopy, 2014. 117 (3), 486-491.
Nianwen Cao, Cunxiong Zhu, Shaobo Yang, Yinhai Xie, Fengkai Yang, Improving the accuracy of aerosol extinction coefficient inversion, Optics and Spectroscopy, 2014. 116 (4), 649-653.
Nianwen Cao, Cunxiong Zhu, Fengkai Yang, PengYan, A method of background noise reduction in lidar data, Applied Physics B, 2013. 113 (1), 649-653.
Nianwen Cao, Jianzhong Shi, Fengkai Yang, PengYan, Discussion of the relationship between the aerosol extinction coefficient error and background noise, Applied Physics B, 2012. 108 (4).
Nianwen Cao, Measurement of tropospheric O3,SO2,and aerosol from a volcanic emission event using new multi-wavelength differential-absorption lidar techniques, Applied Physics B, 2006. 85 (4).
Nianwen Cao, Error analysis for NO2 DIAL measurement in the troposphere, Applied Physics B, 2006. 82.国际会议:
Nianwen Cao. Iterative Method of Dual-wavelength Laser Ratio for Particle Spectrum. 2018, European Conference on Laser Optics & Photonics.捷克布拉格
Nianwen Cao. Aerosol measurements by Raman-Mie-Rayleigh Lidar in Nanjing,China. 2016. 4th International Conference on Photonics.德国柏林
Nianwen Cao. Aerosol measurements by lidar in Nanjing, China. 2015.European Conference on Laser Optics & Photonics.德国德累斯顿
Nianwen Cao. Aerosol Classification Study by Lidar.2015. SPIE Remote Sensing and Security + Defence.法国土卢兹
Nianwen Cao, Cunxiong Zhu, Fengkai Yang, Improving the accuracy of aerosol extinction coefficient inversion, 2013 Remote Sensing SPIE, Japan.
Nianwen Cao, Jianzhong Shi, Fengkai Yang, Aerosol measurements by Mie-Rayleigh-Raman Lidar in North Suburb of Nanjing, Advances in Biomedial Engineering(APEST2012), Kuala lumpur.
Nianwen Cao, Fengkai Yang, Jianzhong Shi, Low altitude Fog-Haze measurements by Raman-Rayleigh-Mie Lidar in Nanjing, Proc. SPIE, 2012, Japan.
Nianwen Cao, Tetsuo Fuckuchi, Takashi Fujii, Zhongrong Chen, Return Signal Intensity Ratio Modulates the Impact of Background Signal on Ozone DIAL Night Time Measurement in the Troposphere, Journal of Electromagnetic Analysis and Applications,2010,7(2),450-456.
Nianwen Cao, Weiyuan Wang, Yonghua Wu, Fred Moshary, A New Analysis Method for Locating the Focus and for Estimating the Size of the Focus of the Backscatter Light of a Lidar System, Journal of Electromagnetic Analysis and Applications,2010,7(3),183-188.
Nianwen Cao, Le Cao, Min He , Sensitivity of the Reaction Mechanism for the Ozone Depletion Events during the Arctic Spring on the Initial Atmospheric Composition of the Troposphere, The 1st Int. Electron. Conf. Atmos. Sci. 会议论文集,2016.
中文期刊:
曹念文,宋坤杰,基于 Sentinel 5P 的长三角大气 NO 2 污染特征及影响因子分析,安全与环境学报 2024 24(2)767-777
曹念文,颜鹏,基于激光雷达探测的气溶胶分类方法研究,光学学报,2014. 34(11)
曹念文,杨丰恺,施建中,噪音信号对夜间对流层臭氧探测准确度的影响,光子学报,2012,41(12)
段晓瞳,曹念文,王潇,张玉欣,梁静舒,杨思鹏,宋秀瑜.2015年中国近地面臭氧浓度特征分析[J].环境科学,2017,38(12):4976-4982.
景琼琼,曹念文,杨少波,王鹏,王贺,孙海波.粒子的非球形程度对消光系数的影响研究[J].光散射学报,2017,29(03):243-250.
沈 吉,曹念文.米-拉曼散射激光雷达反演对流层气溶胶消光系数廓线[J].中国激光,2017,44(06):304-313.
杨少波,曹念文.南京北郊硫酸盐气溶胶性质实验观测[J].中国环境科学,2017,37(08):2813-2821.
王贺,曹念文,王鹏,颜鹏,杨少波,谢银海,孙海波,景琼琼.南京地区大气气溶胶综合观测与对比分析[J].遥感学报,2017,21(01):125-135.
宋秀瑜,曹念文,杨思鹏.探究影响南京地区大气气溶胶光学特性反演的因素[J].激光与光电子学进展,2017,54(04):92-99.
沈吉,曹念文,拉曼散射激光雷达反演平流层气溶胶消光系数廓线,中国激光,2018,45(6),0609002-1-7.
宋秀瑜,曹念文,赵 成,杨思鹏,南京地区相对湿度对气溶胶含量的影响,中国环境科学 2018,38(9):3240-3246。
王 潇,曹念文,黄婧婷,王 贺,周 杰,郑凯端,西安市一次霾过程中气溶胶垂直分布特征及气象要素影响,2018,31(9),1519-1526.
沈 吉,曹念文,2018 年中国长江三角洲地区气溶胶的垂直分布特征,2019,40(11),4743-4754.
戴 晨,曹念文,杨少波,基于多源数据的夏威夷大气低层火山灾害影响分析,20-19,28(5)1-12.
杨少波,曹念文,范广强,夜间近地表臭氧观测,中国环境科学 2019,39(11):4494~4501。
赵忆睿,范广强,曹念文,沈吉,贾鹏程,基于 CALIPSO 的长三角地区云光学特性特征分析,激光杂志,2021,ISSN 0253-2743,CN 50-1085/TN杨思鹏,曹念文,宋秀瑜,段晓瞳,王潇,大气气溶胶对臭氧观测影响的讨论,激光与光电子学进展,2016. 53, 070102-1-10.
石玉立,杨丰恺,曹念文,MPL反演南京北郊气溶胶光学厚度准确度的研究,激光技术,2015,3(39):372-376.
祝存兄, 曹念文, 杨丰恺, 杨少波, 谢银海,南京地区微脉冲激光雷达气溶胶观测,激光与光电子学进展,2015,5(52),16-22.
曹念文,杨丰恺,施建中,王帆,田力,卜令兵,夏俊荣,南京地区低空雾霾气溶胶的拉曼-瑞利-米激光雷达测量,应用光学 ,2012,5(33),979-984.
施建中,曹念文,南京北郊对流层气溶胶激光雷达观测,激光与光电子学进展,2012,10(49).
曹念文,谢银海,祝存兄, 王贺,二氧化硫-臭氧-气溶胶多波长差分吸收激光雷达同时观测,光学技术,2015,41(4), 289-295.
曹念文,施建中,张莹莹,杨丰恺,田力,卜令兵,夏俊荣,严家德,颜鹏,南京北郊气溶胶观测,光与光电子学进展,2012,06(49).
发明专利
望远镜焦点精确定位的装置 201410479188.2
一种气溶胶激光雷达比的测量方法及装置 201510244858.7
一种用于大气臭氧观测的激光雷达系统及观测方法 201310189117.4
大气臭氧廓线拉曼-瑞利/米激光雷达测量装置及探测方法 201210105758.2
大气二氧化硫和臭氧廓线拉曼-瑞利/米多功能激光雷达测量装置及探测方法 201210105749.3
激光雷达探测中激光光束的传输方位的调试方法及装置 201110071451
差分吸收激光雷达光学系统的定标方法 201110070539
垂直方向平行光路的产生装置 201110070539
近期科研项目:
国家重点研发计划:激光雷达大气组分垂直廓线探测 (专题),2023YFC3705301,2023.12-2027.11,主持;
国家重点研发计划:陆地边界层大气污染垂直探测技术(专题),2017YFC0209603,2017.7-2020.6,主持;
国家重点研发计划:近海海洋边界层大气污染综合立体探测技术研发及应用示范(专题),2018YFC0213101,2018.7-2021.6,主持;
国家自然基金面上项目: 南京地区SO2和O3浓度廓线较高精度同时综合观测反演新方法研究,41375044 / D0503,2014.1-2017.12,主持;
国家自然基金面上项目: 南京地气溶胶拉曼-米-偏振激光雷达综合探测反演及分类方法研究,41175033/D0503,2012.1-2015.12, 主持;
公益性行业专项子项目: 气溶胶吸收特性测量新技术研发-气溶胶吸收特性测量比对试验,GYHY 201006047-5,2010.9-2013.9, 主持。