基本信息

电话: 0755－86547990                
地址: 哈尔滨工业大学（深圳）L栋信息楼0920              
邮箱: yuzb@hit.edu.cn                
科研领域: 雷达遥感、激光雷达、地球电离层/热层耦合。

个人简介

禹智斌，2009年于中国科学技术获得学士学位；2014年12年于美国科罗拉多博尔德大学获得博士学位。在博士研究生期间，利用激光雷达在美国南极麦克默多（McMurdo）科考站（南纬77.8°，东经166.7°）进行临近空间的观测和实验，作为近30年来在美国麦克默多科考站的第一位越冬的科学家，并出色完成南极高纬gap地区（介于极点和南极圈之间）临近空间的首次激光雷达观测。多个国际学术杂志审稿人，例如地球物理研究杂志（Journal of Geophysical Research） 和Journal of Atmospheric and Solar-Terrestrial Physics, 审稿人。博士毕业后在北京无线电测量研究所从事气象雷达研发工作，和民航气象综合保障系统的开发工作。

学术成果：开发了首个热层-电离层铁原子和铁离子的数值模型（Thermosphere-Ionosphere Fe/Fe+ model, i.e., TIFe model）。应用此模型，首次成功模拟了南极激光雷达的观测，并对热层的金属层提出了一套完整的理论阐述。多次作为核心成员参与了多项美国自然科学基金重大项目和重点项目。

工作经历

2015-2017 工程师，北京无线电测量研究所

2017-2018 高级工程师，北京无线电测量研究所

2018-2020 助理教授，哈尔滨工业大学（深圳）

2021-至今 副教授，哈尔滨工业大学（深圳）

学习经历

2005-2009 本科，中国科学技术大学

2009-2014 博士研究生，University of Colorado Boulder

专业资质及学术兼职

2015-至今Journal of Geophysical Research (JGR) 审稿人

2015-至今Journal of Atmospheric and Solar-Terrestrial Physics, 审稿人

论文及著作

1, Xinzhao Chu and Zhibin Yu, 2017, Formation mechanism of neutral Fe layers in the thermosphere at Antarctica studied with a thermosphere-ionosphere Fe/Fe+ (TIFe) model. Journal of Geophysical Research: Space Physics, 122, 6812-6848.

2, Zhibin Yu, Xinzhao Chu, Wentao Huang, Weichun Fong, and B. R. Roberts, 2012, Diurnal variations of the Fe layer in the mesosphere and lower thermosphere: Four season variability and solar effects on the layer bottomside at McMurdo (77.84°S, 166.69°E), Antarctica. Journal of Geophysical Research: Atmosphere,  117, D22303.

3, Xinzhao Chu, and Zhibin Yu, Chester S. Gardner, Cao Chen and Weichun Fong, 2011, Lidar observations of neutral Fe layers and fast gravity waves in the thermosphere (110-155 km) at McMurdo (77.84°S, 166.69°E), Antarctica. Geophysical Research Letter, 1 38, L2380.

4, Jian Zhao, Xinzhao Chu, Cao Chen, Xian Lu, Weichun Fong, Zhibin Yu, R. M. Jones, B. R. Roberts and A. Dornbrack, 2017, Lidar Observations of stratospheric gravity waves from 2011 to 2015 at McMurdo (77.84°S, 166.69° E), Antarctica: 1. Vertical wavelengths, periods, and frequency and vertical wave number spectra.Journal of Geophysical Research: Atmosphere. 2017, 122, 5041-5062.

5, Cao Chen, Xinzhao Chu, Jian Zhao, B. R. Roberts, Zhibin Yu, Weichun Fong, Xian Lu and John A. Smith,  2016, Lidar observations of persistent gravity waves with periods of 3-10h in the Antarctic middle and upper atmosphere at McMurdo (77.84°S, 166.69°E). Journal of Geophysical Research: Space Physics, 121, 1483-1502.

6, Xian Lu, Xinzhao Chu, Weichun Fong, Cao Chen, Zhibin Yu, B. R. Roberts and A. J. McDonald,  2015, Vertical evolution of potential energy density and vertical wave number spectrum of Antarctic gravity waves from 35 to 105 km at McMurdo (77.84°S, 166.69°E). Journal of Geophysical Research: Atmosphere, 120,2719-2737.

7, Ningyan  Guo, Yanhong  Kou, Yan Zhao, Zhibin Yu, Yibo  Chen, 2014, An all-pass filter for compensation of ionosphere dispersion effects on wideband GNSS signals, GPS Solutions, 18, 625-637.

8, Weichun Fong, Xian Lu, Xinzhao Chu, Tim J. Fuller-Rowell, Zhibin Yu, B. R. Roberts, Cao Chen, Chester S. Gardner and A. J. McDonald, 2014, Winter temperature tides from 30 to 110 km at McMurdo (77.84°S, 166.69°E), Antarctica: Lidar observations and comparisons with WAM. Journal of Geophysical Research: Atmosphere,119, 2846-2863.

8, Xinzhao Chu, Wentao Huang, Weichun Fong, Zhibin Yu, Zhangjun Wang, John A. Smith and Chester S. Gardner, 2011, First lidar observations of polar mesospheric clouds and Fe temperature at McMurdo (77.84°S, 166.69°E), Geophysical Research Letter, 1 38, L16810.