Extraterrestrial Seismology
Cambridge University Press, 6/25/2015
EAN 9781107041721, ISBN10: 1107041724
Hardcover, 491 pages, 24.7 x 17.4 x 2.5 cm
Language: English
Seismology is a highly effective tool for investigating the internal structure of the Earth. Similar techniques have also successfully been used to study other planetary bodies (planetary seismology), the Sun (helioseismology), and other stars (asteroseismology). Despite obvious differences between stars and planetary bodies, these disciplines share many similarities and together form a coherent field of scientific research. This unique book takes a transdisciplinary approach to seismology and seismic imaging, reviewing the most recent developments in these extraterrestrial contexts. With contributions from leading scientists, this timely volume systematically outlines the techniques used in observation, data processing, and modelling for asteroseismology, helioseismology, and planetary seismology, drawing comparisons with seismic methods used in geophysics. Important recent discoveries in each discipline are presented. With an emphasis on transcending the traditional boundaries of astronomy, solar, planetary and Earth sciences, this novel book is an invaluable resource and reference for undergraduates, postgraduates and academics.
Preface
Planetary seismology
high risk, high return B. Mosser
A bright outlook for helio- and asteroseismology J. Christensen-Dalsgaard
Part I. Observation and Space Missions
1. Asteroseismology observations and space missions T. Appourchaux and F. Grundahl
2. Helioseismology
observations and space missions P. L. Pallé, T. Appourchaux, J. Christensen-Dalsgaard and R. A. GarcÃÂa
3. Planetary seismometry P. Lognonné and W. T. Pike
Part II. Data and Physical Parameters
4. Asteroseismology
from the telescope to the modeler's desk S. D. Kawaler
5. Global helioseismology and asteroseismology of solar-type stars R. Howe and W. J. Chaplin
6. Measurements with local helioseismology D. C. Braun
7. Planetary seismology
early observational results Y. Nakamura
Part III. Modeling Approaches
8. Modeling approaches in asteroseismology C. Aerts
9. Modeling approaches in helioseismology S. P. Rajaguru
10. Modeling approaches in planetary seismology R. Weber, M. Knapmeyer, M. Panning and N. Schmerr
Part IV. Discoveries of Physical Structures and Processes
11. Asteroseismology of red giant stars R. A. GarcÃÂa and D. Stello
12. A helioseismic view of the Sun's internal structure and dynamics S. Basu and M. J. Thompson
13. Recent discoveries of structures and physical processes in local helioseismology T. Sekii and H. Shibahashi
14. Seismology of giant planets P. Gaulme, B. Mosser, F.-X. Schmider and T. Guillot
15. Seismicity and interior structure of the Moon M. Knapmeyer and R. Weber
Part V. Interdisciplinary Research Involving Planetary and Astrophysical Sciences
16. Diskoseismology of accretion discs S. Chaty
17. Numerical simulations of magnetoconvection and helioseismology I. N. Kitiashvili
18. Impact seismology on terrestrial and giant planets P. Lognonné and T. Kawamura
19. Angular momentum transport in stars
from short to long time scales A. S. Brun and S. Mathis
20. From the Sun to the distant stars, and back
future research directions J. Christensen-Dalsgaard
21. Stellar dynamics
rotation, convection and magnetic fields S. Mathur, J. Ballot and R. A. GarcÃÂa
22. Sunquakes
helioseismic response to solar flares A. G. Kosovichev
23. Seismic waves in small bodies
sources and propagation J. D. Walker, W. F. Huebner, S. Chocron, R. P. Bigger and T. Kirchdoerfer
Part VI. Interdisciplinary Research Involving Terrestrial Seismology
24. The interpretation of seismic travel times G. Nolet
25. Interpreting cross correlations in seismology S. Hanasoge
26. Wavefield tomography in geophysics and helioseismology L. J. Cobden, A. Fichter and V. C. H. Tong
References
Index.