A comprehensive overview of the structure and variability of the upper atmosphere
Earth’s upper atmosphere is an open system that is strongly influenced by energy and momentum inputs from both above and below. New observation and modeing techniques have provided insights into dynamics, energetics, and chemical processes in the upper atmosphere.
Upper Atmosphere Dynamics and Energetics presents an overview of key research advances in upper atmospheric physics, and measurement and modeling techniques, along with remaining challenges for understanding the state and variability of the upper atmospheric system.
Volume highlights include:
* Insights into the interconnections between different areas of upper atmospheric science
* Appreciation of the dynamics and complexity of the global upper atmospheric system
* Techniques for observing and measuring the upper atmosphere
* Responses of the upper atmosphere to external drivers
The American Geophysical Union promotes discovery in Earth and space science for the benefit of humanity. Its publications disseminate scientific knowledge and provide resources for researchers, students, and professionals.
Find out more about the Space Physics and Aeronomy collection in this Q&A with the Editors in Chief
Inhoudsopgave
List of Contributors vii
Preface xi
Part I Energetics and Dynamics of the Upper Atmosphere
1 Joule Heating in the Thermosphere
Arthur D. Richmond 3
2 Momentum and Energy Budgets in the High-Latitude Lower Thermospheric Wind System
Young-Sil Kwak and Arthur D. Richmond 19
3 Upper Thermospheric Winds: Forcing, Variability, and Effects
Wenbin Wang, Alan G. Burns, and Jing Liu 41
4 Influence of Nonhydrostatic Processes on the Ionosphere-Thermosphere
Yue Deng, Cissi Y. Lin, Qingyu Zhu, and Cheng Sheng 65
5 The Middle- and Low-Latitude Neutral Wind Dynamo
Astrid Maute 79
Part II Upper Atmospheric Composition
6 Neutral Composition in the Upper Atmosphere
Alan G. Burns, Wenbin Wang, and Liying Qian 107
7 Storm-Time Neutral Composition Changes in the Upper Atmosphere
Yongliang Zhang and Larry J. Paxton 115
8 Neutral Hydrogen in the Terrestrial Thermosphere and Exosphere: A Ground-Based Perspective
Edwin Mierkiewicz 135
Part III Low and Upper Atmosphere Coupling Through Waves
9 Atmosphere-Ionosphere (A-I) Coupling by Solar and Lunar Tides
Jeffrey M. Forbes 159
10 Planetary Waves and Their Impact on the Mesosphere, Thermosphere, and Ionosphere
Jia Yue, Ruth Lieberman, and Loren C. Chang 183
11 Longitudinal Variation in the Mass Density of the Thermosphere: A GAIA Simulation
Yasunobu Miyoshi 217
Part IV Upper Atmosphere Structure and Variability
12 Equatorial Thermosphere Anomaly
Jiuhou Lei 229
13 Structured Storm-Time Polar Ionosphere and Its Drivers: A Review
Jing Liu, Wenbin Wang, Alan G. Burns, and Qinghe Zhang 239
14 Solar Flare Effects on the Thermosphere and Ionosphere
Liying Qian and Thomas N. Woods 253
15 Day-to-Day Variability of the Thermosphere and Ionosphere
Huixin Liu, Yosuke Yamazaki, and Jiuhou Lei 275
16 Response of the Ionosphere to Varying Solar Fluxes
Libo Liu, Yiding Chen, and Huijun Le 301
17 Long-Term Trends in the Upper Atmosphere
Jan Lastovicka 325
Part V Upper Atmosphere Data Assimilation
18 Inference of Hidden States by Coupled Thermosphere-Ionosphere Data Assimilation: Applications to Observability and Predictability of Neutral Mass Density
Tomoko Matsuo and Chih-Ting Hsu 345
Part VI Upper Atmosphere Observations
19 The Ground-Based Airglow Imager Network in China: Recent Observational Results
Jiyao Xu, Qinzeng Li, Longchang Sun, Xiao Liu, Wei Yuan, Wenbin Wang, Jia Yue, Shunrong Zhang, Weijun Liu, Guoying Jiang, Kun Wu, Hong Gao, and Chang Lai 367
20 MLT Science Enabled by Atmospheric Lidars
Chiao-Yao She, Alan Z. Liu, Tao Yuan, Jia Yue, Tao Li, Chao Ban, and Jonathan S. Friedman 395
21 Remote Sensing of Magnetic Fields Induced by Electrojets From Space: Measurement Techniques and Sensor Design
Jeng-Hwa Yee, Jesper Gjerloev, and Dong Wu 451
22 Remote Sensing of Global Lower Thermospheric Winds: Sensing Techniques and Sensor Design
Jeng-Hwa Yee, Imran Mehdi, Darren Hayton, Jose Siles, and Dong Wu 469
23 Exploring the Upper Atmosphere: Using Optical Remote Sensing
Larry J. Paxton, Yongliang Zhang, Hyosub Kil, and Robert K. Schaefer 487
Index 523
Over de auteur
Wenbin Wang, National Center for Atmospheric Research, USA.
Yongliang Zhang, Johns Hopkins University Applied Physics Laboratory, USA.