Publication series :Cambridge Atmospheric and Space Science Series
Author: Tom Tien Sun Chang;
Publisher: Cambridge University Press
Publication year: 2015
E-ISBN: 9781316892800
P-ISBN(Paperback): 9780521642620
P-ISBN(Hardback): 9780521642620
Subject: P354 Space plasma physics
Keyword: 自然科学总论
Language: ENG
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Description
This book for graduate students and researchers introduces examples of complexity phenomena related to observed plasma processes in the space environment. This book presents select examples of complexity phenomena related to observed plasma processes in the space environment, such as those pertaining to the solar corona, the interplanetary medium, and Earth's magnetosphere and ionosphere. Readers will be able to apply the concepts and methodologies to their own research interests and activities. This book presents select examples of complexity phenomena related to observed plasma processes in the space environment, such as those pertaining to the solar corona, the interplanetary medium, and Earth's magnetosphere and ionosphere. Readers will be able to apply the concepts and methodologies to their own research interests and activities. An Introduction to Space Plasma Complexity considers select examples of complexity phenomena related to observed plasma processes in the space environment, such as those pertaining to the solar corona, the interplanetary medium, and Earth's magnetosphere and ionosphere. This book provides a guided tour of the ideas behind forced and/or self-organized criticality, intermittency, multifractals, and the theory of the dynamic renormalization group, with applications to space plasma complexity. There is much to be explored and studied in this relatively new and developing field. Readers will be able to apply the concepts and methodologies espoused in this introduction to their own research interests and activities. 1. Introduction; 2. Dynamical criticality far from equilibrium and associated phenomena; 3. Physics of complexity; 4. Probability distribution and structure functions; 5. Partition functions, generalized dimensions, and singularity spectra; 6. Rank ordered multifractal analysis (ROMA); 7. Dynamic renormalization group and connection between criticality and multifractals; Finale. '… the book is both readable and authoritative. It is written by an expert practitioner and provides a challenging and rewarding read for students as well as for professionals …' Terry Robinson, The Observatory