Get Free Ebook Introduction to plasma physics and controlled fusion. Volume 1, Plasma physics

Get Free Ebook Introduction to plasma physics and controlled fusion. Volume 1, Plasma physics

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Introduction to plasma physics and controlled fusion. Volume 1, Plasma physics

Get Free Ebook Introduction to plasma physics and controlled fusion. Volume 1, Plasma physics

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From the Back Cover

This complete introduction to plasma physics and controlled fusion by one of the pioneering scientists in this expanding field offers both a simple and intuitive discussion of the basic concepts of this subject and an insight into the challenging problems of current research. In a wholly lucid manner the work covers single-particle motions, fluid equations for plasmas, wave motions, diffusion and resistivity, Landau damping, plasma instabilities and nonlinear problems. For students, this outstanding text offers a painless introduction to this important field; for teachers, a large collection of problems; and for researchers, a concise review of the fundamentals as well as original treatments of a number of topics never before explained so clearly. This revised edition contains new material on kinetic effects, including Bernstein waves and the plasma dispersion function, and on nonlinear wave equations and solitons.

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About the Author

Prof. Chen is a plasma physicist with a career extending over 48 years and encompassing both experiment and theory. He has devoted about a decade each to the subfields of magnetic fusion, laser fusion, plasma diagnostics, basic plasma physics, and low-temperature plasma physics. Most plasma students are familiar with his textbook Introduction to Plasma Physics and Controlled Fusion. His current interest is in plasma processing of semiconductor circuits, especially the radiofrequency sources used to make computer chips, and in the physical processes that permit etching millions of transistors on a single chip. To learn more about this, please visit the site for UCLA's Low Temperature Plasma Technology Laboratory (LTPTL): http://www.ee.ucla.edu/~ltptl/. Though formally retired from teaching, Prof. Chen still maintains an active research group with graduate students and postdocs.

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Product details

Hardcover: 421 pages

Publisher: Springer; 2nd edition (May 31, 2006)

Language: English

ISBN-10: 0306413329

ISBN-13: 978-0306413322

Product Dimensions:

7.5 x 1 x 9.2 inches

Shipping Weight: 2.1 pounds

Average Customer Review:

3.6 out of 5 stars

26 customer reviews

Amazon Best Sellers Rank:

#1,012,828 in Books (See Top 100 in Books)

The reason I bought this book is solely because it's required for the course, or I'll not even read it.This is a very poor book especially for beginners for the following reasons.First, its mathematical derivations are just a mass!!! I don't know whether the author has ever derived the formulas himself or he just copy the derivation from somewhere else without checking. A lot of details are just skipped which makes the derivation really hard to follow. What's more, the style of how he wrote the equations to demonstrate the derivation is not logical at numerous places. It seems like he just collected the derivation mindlessly instead of showing the steps in such a way that can be followed logically by the reader.Furthermore, the author's background is not physics or electromagnetics related major. His way of showing the particle motion and waves in plasma make me feel extremely uncomfortable. It's just like a novice using some kind of 'strange' method in the demonstration which is not publicly acceptable by the people in this field. I strongly suggest those who has the background of physics or electromagnetics do NOT read this book, since it is just too ANNOYING and DISGUSTING!

Having used, read more than a dozen plasma physics monographs, and used at least two for a Ph.D. level plasma physics course (including 'Introduction to Plasma Physics' by D.R. Nicholson) I can safely say that Chen's is the best for the introductory or self-study student. I have also recommended it to those intent on working plasma problems on their own, such as questioners who've frequented the astrophysics forum on allexperts.com.As I've told several of them, Chen's book essentially "leads you by the hand"- going through particle motions, gyro-frequencies, adiabatic invariants etc., to magnetic mirror systems (including loss cone angles and Fermi accelerations applied to them) to plasma instabilities and MHD, whereas many others (even 'Plasma Physics' by Krall and Trivelpiece) tend to assume too much.If there is one small complaint it's that Chen, certainly in his earlier editions, tends to use the cgs system as opposed to the S.I.(For example, using ergs instead of joules, and cm/s instead of m/s etc.). But this is easily remedied if the student simply downloads the 'Plasma Formulary' (google!) which contains a Table for conversions between the systems. It is certainly not enough of a problem to warrant notching the rating down!Chen's best section (in Chapter Seven) is probably that which shows how MHD (magnetohydrodynamics) actually arises from a progressive degradation in physical detail, starting from two-fluid theory, to one fluid theory to MHD.Chen's bottom line overview is that one proceeds by taking moments of the Boltzmann equation.E.g. given the Boltmann eqn. is: @f/ @t + v*grad f + F/m*@f/@t = (@f/@t)_Cwhere @ denotes partial derivative, and (@f/@t)_C is the time rate of change in f due to collisions.The first moment, which yields a 'two-fluid' (e.g. electron-ion) medium is obtained by integrating the above eqn. with F = q/m (E + v X B). If one then assumes a sufficiently hot plasma so it's collisionless, the term on the RHS, (@f/@t)_C -> 0.This is the **Vlasov** equation:@f/@t + v*grad f + q/m (E + v X B)*@f/@t = 0The 2nd moment is obtained by multiplying the original eqn. (Boltzmann) by m v then integrating it over dv.Anyway, the progression by using this procedure is that one gets in succession:Two -fluid theory (e.g. ions and electrons treated as a separate fluids)!!VOne fluid theory (introducing low frequency, long wave length and quasi -neutral approximations, e.g. n_e ~ n_i!!VMHD Theory (proceeds from 1-fluid theory with further assumptions, simplifications)In this development, one can see that the two-fluid paradigm embodies much more detail and accuracy than the cruder 1-fluid and MHD approaches, though it is or can be more difficult to apply. Basically given an "ion fluid" and an "electron fluid" there are two essential equations which apply to describe the properties, one for continuity, the other for force.I must also give prime kudos to Chen for his excellent treatment of Landau damping, and the meaning of Landau damping in the context of plasma oscillations, in the same chapter. Hands down, this is one of the best I've seen including his presentation of obtaining the Landau contour.In short, this text gets five stars because it's the best I've seen for the beginning plasma physics student. The writing is clear, the examples and illustrations illuiminating (never redundant, or obscure) and the example problems are well-chosen.In addition, all the problems at the end of each chapter are easily doable if one has properly followed the arguments and examples in the chapters.

Since the many years had passed from the 2nd ed, I expected many improvements from it with corrected errors.but actually this book has obtained a lot of typos (Eqn (2.35),(2.36)at P31 and Eqn (3.35) at the P59 is one of the worst I have to mention),and its figures were mostly the copy of 2nd ed, with reduced resolution (We can see the pixel and blurs to hide them frequently. Was the figures were scanned from 2nd ed and just resized?)Trying to contain additional chapters seemed to be a good try, but why not tried to maintain & improve the reliability of the existing chapters? Now I could not read the textbook safely!

Having only gone through Chapter 4, I find that the general explanations and derivations to be easy to follow. However I don't feel like the book is self contained, many times I have to consult other books to explain concepts that are not fully fleshed out in this book. Lastly, a minor nuisance is when the other uses certain terms that are quite ambiguous such as "schematic plot" which required to me speak to several people before I was convinced he just meant sketch.

A very accessible text on a somewhat esoteric, but important branch of physics. Concepts are explained clearly and mathematical derivations are easy to follow. Many exercise problems scattered throughout the text help keep you on top of the material. Solutions to selected problems in the back help you check yourself before you wreck yourself. If only a full solutions manual were available!

I took an intro to plasma physics class using this book at the undergraduate level - and this book was perfect. It has a good blend of experimental evidence, theory, and math. The derivations are really good, you can follow along in the margins. The pictures are clear and beautiful, the page layout easy on the eyes. This is not a graduate text, but aimed at the advanced undergrad level. You should already know calculus, complex analysis, EM, and linear algebra before learning this material.

This is one of the best introductory texts for plasma physics that I have found. As far as I know, volume 2 was never written but volume 1 does cover the important basics of plasma physics.

However, you should take it with a grain of salt. This is a reprint of the 1980's publication; while most of the information is still quite relevant, some of it is outdated, and quite often the absolute fundamental perspectives on things are ignored in favor of over-simplified assumptions (which was fine under the older school of plasma physics, but simply causes problems today where many plasmas are exceptions to the older school of thought, requiring a much more 'fundamentalist' approach).

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Introduction to plasma physics and controlled fusion. Volume 1, Plasma physics PDF

Introduction to plasma physics and controlled fusion. Volume 1, Plasma physics PDF

Introduction to plasma physics and controlled fusion. Volume 1, Plasma physics PDF

Introduction to plasma physics and controlled fusion. Volume 1, Plasma physics PDF