Schumann Resonance for Tyros

Essentials of Global Electromagnetic Resonance in the Earth–Ionosphere Cavity

  • Alexander Nickolaenko
  • Masashi Hayakawa

Part of the Springer Geophysics book series (SPRINGERGEOPHYS)

Table of contents

  1. Front Matter
    Pages i-xi
  2. Alexander Nickolaenko, Masashi Hayakawa
    Pages 1-18
  3. Alexander Nickolaenko, Masashi Hayakawa
    Pages 19-38
  4. Alexander Nickolaenko, Masashi Hayakawa
    Pages 39-49
  5. Alexander Nickolaenko, Masashi Hayakawa
    Pages 51-64
  6. Alexander Nickolaenko, Masashi Hayakawa
    Pages 65-114
  7. Alexander Nickolaenko, Masashi Hayakawa
    Pages 115-146
  8. Alexander Nickolaenko, Masashi Hayakawa
    Pages 147-168
  9. Alexander Nickolaenko, Masashi Hayakawa
    Pages 169-186
  10. Alexander Nickolaenko, Masashi Hayakawa
    Pages 187-216
  11. Alexander Nickolaenko, Masashi Hayakawa
    Pages 217-244
  12. Alexander Nickolaenko, Masashi Hayakawa
    Pages 245-260
  13. Alexander Nickolaenko, Masashi Hayakawa
    Pages 261-277
  14. Alexander Nickolaenko, Masashi Hayakawa
    Pages 279-301
  15. Alexander Nickolaenko, Masashi Hayakawa
    Pages 303-344
  16. Back Matter
    Pages 345-348

About this book

Introduction

Schumann resonance has been studied for more than half a century. The field became popular among researchers of the terrestrial environment using natural sources of electromagnetic radiation—lightning strokes, primarily—and now many Schumann observatories have been established around the world. A huge number of publications can be found in the literature, the most recent collection of which was presented in a special Schumann resonance section of the journal Radio Science in 2007. The massive publications, however, impede finding information about how to organize measurements and start observations of global electromagnetic resonance. Relevant information is scattered throughout many publications, which are not always available. The goal of this book is to collect all necessary data in a single edition in order to describe the demands of the necessary equipment and the field-site as well as the impact of industrial and natural interference, and to demonstrate typical results and obstacles often met in measurements. The authors not only provide representative results but also describe unusual radio signals in the extremely low-frequency (ELF) band and discuss signals in the adjacent frequency ranges.

Keywords

ELF Observatory Measuring Equipment Earth–ionosphere Cavity Global Electromagnetic Resonance Regular and Transient Schumann Resonance Data Schumann Resonance and Inverse Problems

Authors and affiliations

  • Alexander Nickolaenko
    • 1
  • Masashi Hayakawa
    • 2
  1. 1.National Academy of Sciences of the UkraineKharkovUkraine
  2. 2.The University of Electro-CommunicationsTokyoJapan

Bibliographic information

  • DOI https://doi.org/10.1007/978-4-431-54358-9
  • Copyright Information Springer Japan 2014
  • Publisher Name Springer, Tokyo
  • eBook Packages Earth and Environmental Science
  • Print ISBN 978-4-431-54357-2
  • Online ISBN 978-4-431-54358-9
  • About this book