Hunsucker, R. D. & Hargreaves, J. K.
The High-Latitude Ionosphere and its Effects on Radio Propagation
Cambridge University Press 2007.9
640 pp.(P)
ISBN 0-521-04136-8
12,600円
Contents
1. Basic principles of the ionosphere/ 2. Geophysical phenomena influencing the high-latitude ionosphere/ 3. Fundamentals of terrestrial radio propagation/ 4. Radio techniques for probing the ionosphere/ 5. The high-latitude F region and the trough/ 6. The aurora, the substorm, and the E region/ 7. The high-latitude D region/ 8. High-latitude radio propagation: part 1 - fundamentals and early results/ 9. High-latitude radio propagation: part 2 - modeling, prediction, and mitigation of problem/ Appendix: some books for general reading/ Index/ *
Herrero-Bervera, E. & Gubbins, D. ed.
Encyclopedia of Geomagnetism and Paleomagnetism
地磁気学・古地磁気学百科事典
Springer-Verlag 2007.8
1054 pp.(H) 718 illus
ISBN 1-4020-3992-1
59,200円
Contents
* 本書は古地磁気学と地磁気学の基礎概念をまとめた最新の百科事典です。学生や地磁気学を専門としない地質学、地球工学、生物学、物理学、数学などの研究者にも分りやすく、複雑な数学は必要最小限に留めて解説しています。
* 地磁気は航海において重要な役割を果したため古くから研究されており、地球科学の中でも最も古い分野の一つです。地磁気は現在でも航海における道しるべとして利用されているほか、航空・衛星磁気測量による鉱物や石油などの探査や、堆積岩の年代測定や層序学的手法による気候や環境変動の調査、電磁誘導による地中や海中の電気伝導率の研究などに応用されています。
* 本書は地球物理学、鉱物学、物理学、数学、そして地磁気学史の研究者などによって執筆された、地磁気学と古地磁気学を包括的にまとめた百科事典であり、この研究分野の現在の動向と歴史を知ることが出来るリファレンスです。
【特 長】
* 収録項目数は300項目以上(それぞれ500語から12,000語の長さ)
* 地磁気学と古地磁気学をあわせて収録した初めてのリファレンス
* 16ページのフルカラーセクションを含む、多数の図版を収録
* 索引と相互参照の他、充実した参照文献リストを収録
* Consisting of more than 300 articles written by ca 200 leading experts, this authoritative reference encompasses the entire fields of Geomagnetism and Paleomagnetism in a single volume. It describes in fine detail at an assessable level the state of the current knowledge and provides an up-to-date synthesis of the most basic concepts. As such, it will be an indispensable working tool not only for geophysicists and geophysics students but also for geologists, physicists, atmospheric and environmental scientists, and engineers. *
Lowrie, W.
Fundamentals of Geophysics 2nd ed.
地球物理学の基礎 第2版
Cambridge University Press 2007.10
392 pp. (P)
ISBN 0-521-67596-0
9,400円
Contents
Preface; 1. The Earth as a planet; 2. Gravity and the figure of the Earth; 3. Seismology and the internal structure of the Earth; 4. Earth's age, thermal and electrical properties; 5. Geomagnetism and paleomagnetism; Index/
* This second edition has been completely revised and updated, and now contains review questions and exercises, making it the ideal geophysics textbook for undergraduate students of geoscience with an introductory level of knowledge in physics and mathematics. It is a comprehensive treatment of the fundamental principles of each major branch of geophysics, and presents geophysics within the wider context of plate tectonics, geodynamics and planetary science. Solutions to the exercises and electronic copies of the figures are available at www.cambridge.org/9780521859028. *
Alperovich, L.
Hydromagnetic Waves in the Magnetosphere and the Ionosphere
磁気圏と電離圏における電磁流体波
Springer-Verlag 2007.12
475 pp. (H)
ISBN 1-4020-6636-8
20,000円
Contents
Preface. Introduction/ Part 1 PARTIALLY IONIZED PLASMA. 1.1 Introduction. 1.2 Comments on the plasma dynamics. 1.3 Electromagnetic field equations. 1.4 Dielectric permeability and conductivity. 1.5 Dispersion equation/ Part 2 ELECTRODYNAMIC PROPERTIES OF SPACE. 2.1 The solar wind and the Earth's magnetosphere. 2.2 Ionosphere. 2.3 Atmosphere. 2.4 Summary/ Part 3 ULF-WAVES ON THE GROUND AND IN SPACE. 3.1 Introduction. 3.2 The physical pattern. 3.3 ULF-waves on the ground and in space/ Part 4 MAGNETOHYDRODYNAMIC WAVES. 4.1 MHD equations. 4.2 Homogeneous plasma. 4.3 Inhomogeneous plasma/ Part 5 HYDROMAGNETIC RESONATORS. 5.1 Model and basic equations. 5.2 Dungey's problem. 5.3 Explicit eigenmodes. 5.4 Field-Line Resonance (FLR) frequencies. 5.5 FLR-equations. 5.6 FLR-field structure. 5.7 Global and surface oscillation modes. 5.8 Uncoupled Alfv~n and FMS-modes. 5.9 Coupling of Alfv~n and FMS-waves. 5.10 Summary/ Part 6 FLR IN PLASMA CONFIGURATIONS. 6.1 Introduction. 6.2 2D inhomogeneous plasma. Uniform magnetic field. 6.3 MHD-waves in a curvilinear magnetic field. 6.4 FLR in the dipole geomagnetic field. 6.5 Numerical simulation. 6.6 Summary/ Part 7 MHD-WAVES IN LAYERED MEDIA. 7.1 Introduction. 7.2 Model and basic equations. 7.3 Atmospheric and ground fields. 7.4 `Thin' ionosphere. 7.5 Homogeneous magnetosphere. 7.6 Propagation along a meridian. 7.7 Small-scale perturbations. 7.8 Numerical examples. 7.9 Discussion/ Part 8 PROPAGATION of MHD-BEAMS. 8.1 Introduction. 8.2 Coordinate dependencies. 8.3 Small distances. 8.4 Large distances. 8.5 Summary/ Part 9 INHOMOGENEOUS IONOSPHERE. 9.1 Quasi-stationary approximation. 9.2 Numerical modeling. 9.3 Experimental verification of the MHD-wave polarization/ Part 10 EFFECTIVE CONDUCTIVITY of a CLOUDY IONOSPHERE. 10.1 Introduction. 10.2 Existing theories. 10.3 Inhomogeneous plasma. 10.4 Discussion/ Part 11 ULF-SOUNDING OF MAGNETOSPHERE AND EARTH. 11.1 Introduction. 11.2 Inverse problem of FLR. 11.3 Ground-based magnetotelluric sounding. 11.4 The satellite electromagnetic sounding of Earth/ Part 12 MHD-WAVE EXPOSURE ON THE IONOSPHERE. 12.1 The Doppler effect provoked by an MHD-wave. 12.2 TEC modulation by an MHD-wave/ Part 13 MHD-WAVE GENERATION BY HF-HEATING. 13.1 Introduction. 13.2 Ionospheric heating. 13.3 Kinetics of the E-layer in a strong HF-wave. 13.4 Ionospheric conductivity/ Part 14 ACTIVE CLOUD RELEASES AND MHD-EMISSION. 14.1 Introduction. 14.2 MHD-pulse initiation/ Part 15 MHD AFTER-EFFECTS OF A SOUND IMPACT. 15.1 Foundation of the theory. 15.2 Acoustic shock/ Experiment/ References/ Index/ List of Notations/ *
591-10 登録日 08.03.22
