电离层空间天气
出版时间:
2023-03
版次:
1
ISBN:
9787121453427
定价:
99.00
装帧:
其他
页数:
220页
3人买过
-
本书介绍了由空间天气事件和太阳条件变化所产生的电离层扰动、电离层暴、波动和不规则体,介绍了电离层基础数据的采集分发机制和多种预测方法,并基于最近几个太阳活动周期内的电离层垂测数据和GNSS 观测数据,分析了欧洲地区电离层在正常和极端条件下的主要特征。本书提供了珍贵而丰富的数据实例,可帮助读者深入了解电离层空间天气。 Ljiljana R. Cander,美国电磁科学学会会士,英国科学技术设施委员会(Science and Technology Facilities Council,STFC)卢瑟福阿普尔顿实验室(Rutherford Appleton Laboratory,RAL)访问科学家,长期从事空间科学、地球物理学等方面的研究工作。
Ljiljana R. Cander,美国电磁科学学会会士,英国科学技术设施委员会(Science and Technology Facilities Council,STFC)卢瑟福阿普尔顿实验室(Rutherford Appleton Laboratory,RAL)访问科学家,长期从事空间科学方面的研究工作。 第 1 章 绪论 ····································································································1
1.1 背景····································································································.2
1.2 内容安排······························································································.4
参考文献和补充书目 ·····················································································.7
第 2 章 日地关系 ······························································································9
2.1 地球磁层与太阳的相互作用 ·····································································.9
2.2 磁层-电离层相互作用···········································································.13
2.3 电离层-大气层耦合··············································································.16
参考文献和补充书目 ···················································································.18
第 3 章 空间天气成因和效应 ············································································.20
3.1 主要空间天气成因 ···············································································.20
3.2 主要空间天气效应 ···············································································.30
3.3 空间天气和地球电离层 ·········································································.33
参考文献和补充书目 ···················································································.39
第 4 章 电离层变化性 ·····················································································.42
4.1 地球电离层气候学 ···············································································.42
4.2 D 层和 E 层扰动 ··················································································.48
4.3 F 层扰动 ····························································································.50
4.4 电离层噪声·························································································.51
4.5 日食期间 TEC 突然降低 ········································································.64
参考文献和补充书目 ···················································································.67
第 5 章 电离层暴形态 ·····················································································.70
5.1 太阳周期形态······················································································.70
5.2 季节形态····························································································.79
5.3 每日形态····························································································.84
5.4 小磁暴形态·························································································.94
5.5 电离层暴形态的起源 ············································································.97
参考文献和补充书目 ···················································································103
第 6 章 电离层空间天气预报和建模 ·································································.105
6.1 基于 STIF 工具统计预报········································································105
6.2 基于趋势线统计预报 ···········································································.116
6.3 基于人工神经网络动态预报 ··································································.120
6.4 电离层空间天气建模 ············································································130
参考文献和补充书目 ···················································································134
第 7 章 电离层不规则体和波动 ·······································································.137
7.1 电离层不规则体和大气波动 ··································································.137
7.2 大尺度不规则体 ··················································································140
7.3 中尺度不规则体 ··················································································147
7.4 观测和建模·························································································148
参考文献和补充书目 ···················································································148
第 8 章 电离层空间天气与电波传播 ·································································.150
8.1 电离层空间天气与 RF 系统 ······················································
-
内容简介:
本书介绍了由空间天气事件和太阳条件变化所产生的电离层扰动、电离层暴、波动和不规则体,介绍了电离层基础数据的采集分发机制和多种预测方法,并基于最近几个太阳活动周期内的电离层垂测数据和GNSS 观测数据,分析了欧洲地区电离层在正常和极端条件下的主要特征。本书提供了珍贵而丰富的数据实例,可帮助读者深入了解电离层空间天气。
-
作者简介:
Ljiljana R. Cander,美国电磁科学学会会士,英国科学技术设施委员会(Science and Technology Facilities Council,STFC)卢瑟福阿普尔顿实验室(Rutherford Appleton Laboratory,RAL)访问科学家,长期从事空间科学、地球物理学等方面的研究工作。
Ljiljana R. Cander,美国电磁科学学会会士,英国科学技术设施委员会(Science and Technology Facilities Council,STFC)卢瑟福阿普尔顿实验室(Rutherford Appleton Laboratory,RAL)访问科学家,长期从事空间科学方面的研究工作。
-
目录:
第 1 章 绪论 ····································································································1
1.1 背景····································································································.2
1.2 内容安排······························································································.4
参考文献和补充书目 ·····················································································.7
第 2 章 日地关系 ······························································································9
2.1 地球磁层与太阳的相互作用 ·····································································.9
2.2 磁层-电离层相互作用···········································································.13
2.3 电离层-大气层耦合··············································································.16
参考文献和补充书目 ···················································································.18
第 3 章 空间天气成因和效应 ············································································.20
3.1 主要空间天气成因 ···············································································.20
3.2 主要空间天气效应 ···············································································.30
3.3 空间天气和地球电离层 ·········································································.33
参考文献和补充书目 ···················································································.39
第 4 章 电离层变化性 ·····················································································.42
4.1 地球电离层气候学 ···············································································.42
4.2 D 层和 E 层扰动 ··················································································.48
4.3 F 层扰动 ····························································································.50
4.4 电离层噪声·························································································.51
4.5 日食期间 TEC 突然降低 ········································································.64
参考文献和补充书目 ···················································································.67
第 5 章 电离层暴形态 ·····················································································.70
5.1 太阳周期形态······················································································.70
5.2 季节形态····························································································.79
5.3 每日形态····························································································.84
5.4 小磁暴形态·························································································.94
5.5 电离层暴形态的起源 ············································································.97
参考文献和补充书目 ···················································································103
第 6 章 电离层空间天气预报和建模 ·································································.105
6.1 基于 STIF 工具统计预报········································································105
6.2 基于趋势线统计预报 ···········································································.116
6.3 基于人工神经网络动态预报 ··································································.120
6.4 电离层空间天气建模 ············································································130
参考文献和补充书目 ···················································································134
第 7 章 电离层不规则体和波动 ·······································································.137
7.1 电离层不规则体和大气波动 ··································································.137
7.2 大尺度不规则体 ··················································································140
7.3 中尺度不规则体 ··················································································147
7.4 观测和建模·························································································148
参考文献和补充书目 ···················································································148
第 8 章 电离层空间天气与电波传播 ·································································.150
8.1 电离层空间天气与 RF 系统 ······················································
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浙江省嘉兴市
平均发货9小时
成功完成率95.04%
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全新
山东省潍坊市
平均发货15小时
成功完成率82.34%
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全新
山东省泰安市
平均发货7小时
成功完成率86.26%
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全新
河北省保定市
平均发货24小时
成功完成率89.15%
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全新
河北省廊坊市
平均发货25小时
成功完成率87.14%
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全新
北京市丰台区
平均发货25小时
成功完成率85.04%
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全新
河北省保定市
平均发货33小时
成功完成率84.74%
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电离层空间天气
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全新
北京市通州区
平均发货9小时
成功完成率91.28%
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全新
广东省广州市
平均发货7小时
成功完成率94.69%
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全新
北京市通州区
平均发货12小时
成功完成率96.13%
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全新
山东省泰安市
平均发货8小时
成功完成率91.88%
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全新
河北省保定市
平均发货15小时
成功完成率94.92%
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全新
河北省保定市
平均发货29小时
成功完成率80.45%
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全新