[Physics FAQ]
[Relativity FAQ] -
[Copyright]
updated 17-Jul-1997 by PEG
updated 25-MAY-1996 by PEG
updated 28-JUL-1994 by SIC
original Vijay D. Fafat
A Physics Booklist: Recommendations from the Net
This article is a compilation of books recommended by sci.physics
participants as the 'standard' or 'classic' texts on a wide variety of
topics of general interest to physicists and physics students. As a
guide to finding the right book for you, many of the comments from the
contributors have been retained.
This document is still under construction. Many entries are
incomplete, and many good books are not yet listed. Please feel free
to contribute to this project. Contact me (Phil Gibbs) at pg@pobox.com. When you submit a
book please try to keep your note short like the entries
already on this page so that I can easily cut and paste them in.
It is your responsibility to make sure
that the title and authors are correct and that the book is
worth including since I will rarely have the time to check them.
Details such as publisher, date and ISBN numbers below
are far and few between. This is partly because we are too
lazy to type them in but also because these things can
change with new editions and different countries (slightly better
excuse). If you want to know more do a search at one of
the internet book shops such as:
If you are looking for an out of print book try one of these:
Subject Index
General Physics (so even mathematicians can understand it!)
- M. S. Longair, Theoretical concepts in physics, 1986.
An alternative view of theoretical reasoning in Physics for
final year undergrads.
- Sommerfeld, Arnold, Lectures on Theoretical Physics
Sommerfeld is God for mathematical physics.
- Feynman, R: The Feynman lectures on Physics - 3 vols
Highly recommended texts compiled from the graduate lecture courses
given by Feynman.
- Walker, Jearle: The Flying Circus of Physics
- There is the entire Landau and Lifshitz series. They have volumes
on classical mechanics, classical field theory, E&M, QM, QFT, Statistical
Physics, and more. Very good series that spans entire graduate level
curriculum.
- The New physics edited by Paul Davies.
This is one big book and takes time to look through
topics as diverse as general relativity, astrophysics, particle
theory, quantum mechanics, chaos and nonlinearity, low temperature physics
and phase transitions. Nevertheless, this is one excellent book of
recent (1989) physics articles, written by several
physicists/astrophysicists.
- The Character of Physical Law Richard P Feynman
In his unique no nonsense style Feynman lectures about what
physics is all about. Down to Earth examples keep him from straying
into the kind of metaphysics of which he is often critical.
- Boojums all the way through: Communicating
science in Prosaic language David Mermin
- Longing for the Harmonies: Themes and
variations from modern physics Frank Wilczek and Betsy Devine
- Permutation City Greg Egan
This is a science fiction novel which has more to say
about philosophy of physics than most philosophers and
physicists
Classical Mechanics
- Goldstein, Herbert Classical Mechanics, 2nd ed, 1980.
intermediate to advanced; excellent bibliography
- Introductory: The Feynman Lectures, vol 1
- Symon, Keith Mechanics, 3rd ed., 1971
undergrad level.
- Corbin, H and Stehle, P Classical Mechanics, 2nd ed., 1960
- V.I. Arnold, Mathematical methods of classical mechanics, translated
by K. Vogtmann and A. Weinstein, 2nd ed., 1989.
The appendices are somewhat more advanced and cover all sorts of
nifty topics. Deals with Geometrical aspects of classical mechanics
- Resnick, R and Halliday, D Physics, vol 1, 4th Ed., 1993
Excellent introduction without much calculus. Lots of problems and
review questions.
- Marion, J & Thornton, Classical Dynamics of Particles and Systems,
2nd ed., 1970.
Undergrad level. A useful intro to classical dynamics. Not as advanced
as Goldstein, but with real worked-out examples.
- Fetter, A and Walecka, J: Theoretical mechanics of particles and continua
graduate level text, a little less impressive than Goldstein (and sometimes
a little less obtuse)
- Kiran Gupta: Classical Mechanics of Particles and Rigid Bodies (1988)
At the level of Goldstein but has many more worked out problems at the end of
each chapter as a good illustration of the exposed material. Very useful for
preparations for the Ph.D. Qualifying Examination.
Classical Electromagnetism
- Jackson, J. D. Classical Electrodynamics, 2nd ed., 1975
intermediate to advanced, the definitive graduate(US)/undergraduate(UK) text.
- Edward Purcell, Berkeley Physics Series Vol 2.
You can't beat this for the intelligent, reasonably sophisticated
beginning physics student. He tells you on the very first page
about the experimental proof of how charge does not vary with
speed.
plus .. Chen, Min, Berkeley Physics problems with solutions.
- Reitz, J, Milford, F and Christy, R: Foundations of Electromagnetic Theory
4th ed., 1992
Undergraduate level. Pretty difficult to learn from at first, but good
reference, for some calculations involving stacks of thin films and their
reflectance and transmission properties, for e.g. It's a good, rigorous text
as far as it goes, which is pretty far, but not all the way. For example,
they have a great section on optical properties of a single thin film
between two dielectric semi-infinite media, but no generalization to stacks
of films.
- Feynman, R: Feynman Lectures, vol 2
- Lorrain, P & Corson D: Electromagnetism, Principles and Applications, 1979
- Resnick, R and Halliday, D: Physics, vol 2, 4th ed., 1993
- Igor Irodov, Problems in Physics
Excellent and extensive collection of EM problems for undergrads.
- Smythe, William: Static and Dynamic Electricity, 3rd ed., 1968
For the extreme masochists. Some of the most hair-raising EM
problems you'll ever see. Definitely not for the weak-of-heart.
- Landau, Lifschitz, and Pitaevskii, Electrodynamics of Continuous Media,
2nd ed., 1984
same level as Jackson and with lots of material not in Jackson.
- Marion, J and Heald, M: Classical Electromagnetic Radiation, 2nd ed.,
1980
undergraduate or low-level graduate level
Quantum Mechanics
- QED : The strange theory of light and matter Richard P.
Feynman.
One need no longer be confused by this beautiful theory.
Richard Feynman gives an exposition that is once again and by itself
a beautiful explanation of the theory of photon-matter interactions.
Taken from a popular, non-technical lecture
- Cohen-Tannoudji, Quantum Mechanics I & II&, 1977.
introductory to intermediate.
- Liboff Introductory Quantum Mechanics, 2nd ed., 1992
elementary level. Makes a few mistakes.
- Sakurai, J Modern Quantum Mechanics, 1985
- Sakurai, J Advanced Quantum Mechanics 1967
Good as an introduction to the very basic beginnings of quantum field
theory, except that it has the unfortunate feature of using 'imaginary time'
to make Minkowski space look Euclidean.
- Wheeler, J and Zurek, W (eds.) Quantum Theory and Measurement, 1983
On the philosophical end. People who want to know about interpretations
of quantum mechanics should definitely look at this collection of
relevant articles.
- DeWitt, C and Neill Graham: The Many Worlds Interpretation of Quantum
Mechanics
Philosophical. Collection of articles.
- Everett, H: Theory of the Universal Wavefunction
An exposition which has some gems on thermodynamics and probability.
Worth reading for this alone.
- Bjorken, J and Drell, S Relativistic Quantum Mechanics/ Relativistic
Quantum Fields
(for comments, see under Particle Physics)
- Ryder, Lewis Quantum Field Theory, 1984
- Guidry, M Gauge Field Theories : an introduction with applications
1991
- Messiah, A: Quantum Mechanics, 1961
- Dirac, Paul:
a] Principles of QM, 4th ed., 1958
b] Lectures in QM, 1964
c] Lectures on Quantum Field Theory, 1966
- Itzykson, C and Zuber, J: Quantum Field Theory, 1980
advanced level.
- Slater, J: Quantum theory: Address, essays, lectures.
Good follow on to Schiff.
note: Schiff, Bjorken and Drell, Fetter and Walecka, and Slater
are all volumes in "International Series in pure and Applied Physics"
published by McGraw Hill.
- Pierre Ramond, Field Theory: A Modern Primer, 2nd edition.
Volume 74 in the FiP series.
The so-called "revised printing" is a
must, as they must've rushed the first printing of the 2nd edition,
and it's full of inexcusable mistakes.
- Feynman, R: Lectures - vol III
A non-traditional approach. A good place to get an intuitive feel
for QM, if one already knows the traditional approach.
- Heitler & London, Quantum theory of molecules
- Bell, J: Speakable and Unspeakable in Quantum Mechanics, 1987
An excellent collection of essays on the philosophical aspects of QM.
- Milonni: The quantum vacuum: an introduction to quantum electrodynamics
1994.
- Holland: The Quantum Theory of Motion
A good bet for strong foundation in QM.
- John Von Neumann: Mathematical foundations of quantum mechanics, 1955.
For the more mathematical side of quantum theory, especially for
those who are going to be arguing about measurement theory.
- Schiff, Leonard, L: Quantum Mechanics, 3rd ed., 1968
A little old. Not much emphasis on airy-fairy things like many worlds
or excessive angst over Heisenberg UP. Straight up QM for people
who want to do calculations. Introductory graduate level. Mostly
Schrod. eqn. Spin included, but only in an adjunct to Schrod. Not
much emphasis on things like Dirac eqn., etc.
- Quantum Physics of Atoms, Molecules, Solids, Nuclei, and Particles by
Eisberg and Resnick, 2nd ed., 1985.
This is a basic intro. to QM, and it is excellent for
undergrads. It is not thorough with math, but fills in a lot
of the intuitive stuff that most textbooks do not present.
- Elementary Quantum Mechanics, David Saxon
It's a decent undergraduate (senior level) text.
- Intermediate Quantum Mechanics, Bethe and Jackiw
- Quanta: A Handbook of concepts, P.W.Atkins
Short entries, arranged alphabetically, emphasis on stuff relevant to quantum
chemistry. Concentrates on the intuition and not the mathematics.
- James Peebles: Quantum Mechanics (1993)
Intermediate level, based on lectures given by the author at Princeton. Very
lucid exposition of the standard material with outstanding selection of
mostly original problems at the end of each chapter.
Statistical Mechanics and Entropy
- David Chandler, Introduction to Modern Statistical Mechanics, 1987
- R. Tolman, Prinicples of Statistical Mechanics., Dover
- Kittel & Kroemer: Statistical Thermodynamics
Best of a bad lot.
- Reif, F : Principles of statistical and thermal physics.
the big and little Reif stat mech books. Big Reif is much better than
Kittel & Kroemer. He uses clear language but avoids the handwaving that
thermodynamics often gives rise to. More classical than QM oriented.
- Bloch, Felix: Fundamentals of Statistical Mechanics.
- Radu Balescu Statistical Physics
Graduate Level. Good description of non-equilibrium stat. mech.
but difficult to read. It is all there, but often you don't
realize it until after you have learned it somewhere else.
Nice development in early chapters about parallels between
classical and quantum Stat. Mech.
- Methods of Quantum Field Theory in Statistical Physics,
Abrikosov, Gorkov, and Dyzaloshinski
- Time's Arrow and Archimedes' Point Huw Price
Semi-popular book on the direction of time by a philosopher.
It has been controversial because of its criticism of
physicists such as Hawking for their "double standards"
in dealing with the old problem on the origin of the arrow of time.
It is thought provoking and clearly written.
The following 6 books deal with modern topics in (mostly) classical
statistical mechanics, namely, the central notions of linear response theory
(Forster) and critical phenomena (the rest) at level suitable for
beginning graduate students.
- Thermodynamics, by H. Callen.
- Statistical Mechanics, by R. K. Pathria
- Hydrodynamic Fluctuations, Broken Symmetry, and Correlation
Functions, by D. Forster
- Introduction to Phase Transitions and Critical Phenomena,
by H. E. Stanley
- Modern Theory of Critical Phenomena, by S. K. Ma
- Lectures on Phase Transitions and the Renormalization Group,
by N. Goldenfeld
Condensed Matter
- Charles Kittel, Introduction to Solid State Physics (ISSP),
introductory
- Ashcroft and Mermin, Solid State Physics,
intermediate to advanced
- Charles Kittel, Quantum Theory of Solids.
This is from before the days of his ISSP; it is a more advanced book.
At a similar level...
- Solid State Theory, by W. A. Harrison
(a great bargain now that it's published by Dover)
- Theory of Solids, by Ziman.
- Fundamentals of the Theory of Metals, by Abrikosov
Half of the book is on superconductivity.
- Many-Particle Physics, G. Mahan.
Advanced.
Special Relativity
- Taylor and Wheeler, Spacetime Physics
Still the best introduction out there.
- Relativity : Einstein's popular exposition.
- Wolfgang Rindler, Essential Relativity. Springer 1977
With a heavy bias towards astrophysics and therefore on a more
moderate level formally. Quite strong on intuition.
- A P French: Special Relativity
A through introductory text. Good discussion of the twin
paradox, pole and the barn etc. Plenty of diagrams
illustrating Lorentz transformed co-ordinates, giving both an
algebraic and geometrical insight to SR. (Seems to be out of print)
- Subtle is the Lord: The Science and Life of Albert Einstein
Abraham Pais
The best technical biography of the life and work of Albert Einstein.
- Special Relativity and its Experimental Foundations
Yuan Zhong Zhang
Special relativity is so well established that its experimental
foundation is often ignored. This book fills the gap and will
be of relevance to many discussions in sci.physics.relativity
Particle Physics
- Kerson Huang, Quarks, leptons & gauge fields, World Scientific, 1982.
Good on mathematical aspects of gauge theory and topology.
- L. B. Okun, Leptons and quarks, translated from Russian by V. I. Kisin,
North-Holland, 1982.
- T. D. Lee, Particle physics and introduction to field theory.
- Itzykson: Particle Physics
- Bjorken & Drell: Relativistic Quantum Mechanics
One of the more terse books. The first volume on
Relativistic quantum mechanics covers the subject in a blinding 300
pages. Very good if you really want to know the subject.
- Francis Halzen & Alan D. Martin, Quarks & Leptons,
beginner to
intermediate, this is a standard textbook for graduate level courses.
Good knowledge of quantum mechanics and special relativity is assumed.
A very good introduction to the concepts of particle physics. Good
examples, but not a lot of Feynman diagram calculation. For this,
see Bjorken & Drell.
- Donald H. Perkins: Introduction to high energy physics
Regarded by many people in the field as the best introductory text at
the undergraduate level. Covers basically everything with almost no
mathematics.
- Close, Marten, and Sutton: The Particle Explosion
A popular exposition of the history of particle physics with
terrific photography.
- Christine Sutton: Spaceship Neutrino
A good, historical, largely intuitive introduction to
particle physics, seen from the neutrino viewpoint.
- Mandl,Shaw: Quantum Field Theory
Introductory textbook, concise and practically oriented. Used at many graduate
departments as a textbook for the first course in QFT and a bare minimum
for experimentalists in high energy physics. Chapters on Feynman diagrams and
cross-section calculations particularly well written and useful.
- F.Gross: Relativistic Quantum Mechanics and Field Theory
I am familiar with fist part only (rel.QM) which I warmly recommend in
conjunction with Mandl,since Klein-Gordon and Dirac Equation are explained
in greater detail than in Mandl.One of my professors likes a lot the rest of the
book too, but I haven't spent much time on it and can't comment. Published in'93.
- S. Weinberg: The Quantum Theory of Fields, Vol I,II, 1995
It's the usual Weinberg stuff: refreshing, illuminating viewpoints
on every page. Perhaps most suitable for graduate students who
already know some basics of QFT. Unfortunately, this book does not
conform to Bjorken-Drell metric.
- M.B. Green, J.H. Schwarz, E. Witten, Superstring Theory (2 vols)
Although these two volumes do not touch the important new developments
in string theories they are still the best texts for the basics.
To keep up with this fast developing subject it is necessary to download
the papers and reviews as hep-th e-prints.
- M. Kaku Strings, Conformal Fields and Topology
Just a little more up-to-date than GSW
- Superstrings: A Theory of Everything ed P.C.W. Davies
Through transcripts of interviews with Schwarz, Witten, Green, Gross,
Ellis, Salam, Glashow, Feynman and Weinberg we learn about string
theory and how different physicists feel about its prospects as a
TOE. This also predates the new developments which revolutionised
string theory after 1993.
- A Pais: Inward Bound
This can be regarded as a companion volume to his biography
of Einstein (see special relativity section). It covers the
history of particle physics through the twentieth century but
is best for the earlier half.
- R.P. Crease, C.C. Mann The Second Creation 1996
Another history of particle physics in the twentieth century. This
one is especially good on the development of the standard model.
Full of personal stories taken from numerous interviews,
it is difficult to put down.
General Relativity
- Meisner, Thorne and Wheeler. Gravitation
W. H. Freeman & Co., San Francisco 1973
Sometimes known as "the telephone book" or just MTW. It
has two tracks for different levels.
- Robert M. Wald, Space, Time, and Gravity : the Theory of the Big Bang
and Black Holes.
A good non-technical introduction, with a nice mix of mathematical
rigor and comprehensible physics.
- Schutz: First Course in General Relativity.
- Weinberg: Gravitation and Cosmology
Good reference book, but not a very good read.
- Hans Ohanian: Gravitation & Spacetime (recently back in print)
For someone who actually wants to learn to work problems, ideal
for self-teaching, and math is introduced as needed, rather than
in a colossal blast.
- Robert Wald, General Relativity
It's a more advanced textbook than Wald's earlier book, appropriate
for an introductory graduate course in GR. It strikes just the right
balance, in my opinion, between mathematical rigor and physical
intuition. It has great mathematics appendices for those who care
about proving theorems carefully, and a good introduction to the
problems behind quantum gravity (although not to their solutions).
I think it's MUCH better than either MTW or Weinberg.
- Clifford Will,Was Einstein Right? Putting General Relativity to the Test
Non-technical account of the experimental support for GR, including the
"classic three tests", but going well beyond them.
- Kip Thorne, Black Holes and Time Warps: Einstein's
Outrageous Legacy
An award winning popular account of black holes and related objects
with many historical anecdotes from the authors personal experiences.
The book is famous for the final sections about time travel through
wormholes.
Mathematical Methods (so that even physicists can understand it!)
- Morse and Feshbach Methods of Theoretical Physics (can be hard to
find)
- Mathews and Walker, Mathematical Methods for Physicists.
An absolute joy for those who love math, and very informative even
for those who don't. [This has been severely disputed! - ed]
- Arfken Mathematical Methods for Physicists Academic Press
Good introduction at graduate level. Not comprehensive in any
area, but covers many areas widely. Arfken is to math methods
what numerical recipes is to numerical methods -- good intro, but
not the last word.
- Zwillinger Handbook of Differential Equations. Academic Press
Kind of like CRC tables but for ODE's and PDE's. Good
reference book when you've got a Diff. Eq. and want to find a
solution.
- Gradshteyn and Ryzhik Table of Integrals, Series, and Products Academic
THE book of integrals. Huge, but useful when you need an integral.
- F.W. Byron and R. Fuller, Mathematics of Classical and Quantum
Physics (2 vols)
is a really terrific text for self-study; it is like a baby version
of Morse & Feshbach.
Nuclear Physics
- Preston and Bhaduri, Structure of the Nucleus
- Blatt and Weisskopf Theoretical Nuclear Physics
- DeShalit and Feshbach Theoretical Nuclear Physics
This is serious stuff. Also quite expensive even in paper. I think
the hard cover is out of print. This is volume I (structure).
Volume II (scattering) is also available.
- Satchler: Direct Nuclear Reactions
- Walecka: Theoretical Nuclear and Subnuclear Physics (1995)
Covers advanced topics in theoretical nuclear physics from a modern perspective
and includes results of past 20 years in a field which makes it unique.
Not an easy material to read but invaluable for people seeking an updated
review of the present status in the field.
- Krane: Introductory nuclear physics
Introductory-to-intermediate level textbook in basic nuclear physics for
senior undergraduates. Good, clear and relatively comprehensive exposition of
"standard" material:nuclear models, alfa, beta, gamma radioactivity, nuclear
reactions...Last edition issued in 1988.
Cosmology
- J. V. Narlikar, Introduction to Cosmology.1983 Jones & Bartlett Publ.
For people with a solid background in physics and higher math, THE
introductory text, IMHO, because it hits the balance between
mathematical accuracy (tensor calculus and stuff) and intuitive
clarity/geometrical models very well for grad student level. Of course,
it has flaws but only noticeable by the Real Experts (TM) ...
- Hawking: Brief History of Time
The made that made Popular Science popular.
- Weinberg: First Three Minutes
A very good book. It's pretty old, but most of the information in it
is still correct.
- Timothy Ferris: Coming of Age in the Milky Way
and The Whole Shebang
more Popular Science.
- Kolb and Turner: The Early Universe.
At a more advanced level, a standard reference. As the title implies,
K&T cover mostly the strange physics of very early times: it's heavy
on the particle physics, and skimps on the astrophysics. There's a
primer on large-scale structure, which is the most active area of
cosmological research, but it's really not all that good.
- Peebles: Principles of Physical Cosmology.
Comprehensive, and on the whole it's quite a good book, but it's
rather poorly organized. I find myself jumping back and forth through
the book whenever I want to find anything.
- Black Holes and Warped Spacetime, by William J. Kaufmann, III.
This is a great, fairly thorough, though non-mathematical
description of black holes and spacetime as it relates to
cosmology. I was impressed by how few mistakes Kaufmann makes in
simplifying, while most such books tend to sacrifice accuracy for
simplicity.
- Principles of Cosmology and Gravitation, Berry, M. V.
This is very well-written, and useful as an undergrad text.
- Dennis Overbye: Lonely Hearts of the Cosmos
The unfinished history of converge on Hubble's constant is
presented, from the perspective of competing astrophysics
rival teams and institute, along with a lot of background on cosmology
(a lot on inflation, for instance). A good insight into the scientific
process.
- The big bang, Joseph Silk.
I consider Silk's book an absolute must for those who want a quick run
at the current state of big bang cosmology and some of the recent
(1988) issues which have given so many of us lots of problems to solve.
[of course that's eons out of date now - ed]
- Bubbles, voids, and bumps in time : the new cosmology edited
by James Cornell.
This is quite a nice and relatively short read for some of the
pressing issues (as of 1987-88) in astrophysical cosmology.
- Structure formation in the universe T. Padmanabhan.
A no-nonsense book for those who want to calculate some problems
strictly related to the formation of structure in the universe.
The book even comes complete with problems at the end of each chapter.
A bad thing about this book is that there isn't any coverage on
clusters of galaxies and the one really big thing that annoys the
hell outta me is that the bibliography for *each* chapter is all
combined in one big bibliography towards the end of the book which
makes for lots of page flipping.
- The large-scale structure of the universe by P. J. E. Peebles.
This is a definitive book for anyone who desires an understanding of
the mathematics required to develop the theory for models of
large scale structure. The essential techniques in the description
of how mass is able to cluster under gravity from a smooth early
universe are discussed. While I find it dry in some places, there are
noteworthy sections (e.g. statistical tests, n-point correlation functions,
etc.).
- Inhomogeneous Cosmological Models by Andrzej Krasinski
If you are blinded by the dogma of the cosmological principle
this book is a real eye opener. A technical, historical and bibliographical
survey of possible inhomogeous universes from solutions of general
relativity.
- Origins: The lives and worlds of modern cosmologists
Alan Lightman and Roberta Brawer, 1990
Transcripts of interview with 27 of the most influential
cosmologists from the past few decades. This book provides a
unique record of how their cosmological theories have been
formed.
Astronomy
- Hannu Karttunen et al. (eds.): Fundamental Astronomy.
The best book covering all of astronomy (also for absolute beginners)
AND still going into a lot of detail for special work for people more
involved AND presenting excellent graphics and pictures.
- Pasachoff: Contemporary Astronomy
Good introductory textbook for the nontechnical reader. It gives a
pretty good overview of the important topics, and it has good pictures.
- Shu, Frank: The physical universe : an introduction to astronomy,
- Astrophysical formulae : a compendium for the physicist and
astrophysicist Kenneth R. Lang.
Here is everything you wanted to know (and more!) about astrophysical
formulae on a one-line/one-paragraph/one-shot deal.
Of course, the formulae come complete with references (a tad old, mind
you) but it's a must for everyone who's working in astronomy and
astrophysics. You learn something new every time you flip through the pages!
Plasma Physics
(See Robert Heeter's sci.physics.fusion FAQ for details)
Numerical Methods/Simulations
- Johnson and Rees Numerical Analysis Addison Wesley
Undergrad. level broad intro.
- Numerical Recipes in X (X=c,fortran,pascal,etc) Tueklosky and Press
- Young and Gregory A survey of Numerical Mathematics Dover 2 volumes.
Excellent overview at grad. level. Emphasis toward solution
of elliptic PDE's, but good description of methods to get there
including linear algebra, Matrix techniques, ODE solving methods,
and interpolation theory. Biggest strength is it provides a coherent
framework and structure to attach most commonly used num. methods.
This helps understanding about why to use one method or another.
2 volumes.
- Hockney and Eastwood Computer Simulation Using Particles Adam Hilger
Good exposition of particle-in-cell (PIC) method and extensions.
Applications to plasmas, astronomy, and solid state are discussed.
Emphasis is on description of algorithms. Some results shown.
- Birdsall and Langdon Plasma Physics via Computer Simulations
PIC simulation applied to plasmas. Source codes shown. First part
is almost a tutorial on how to do PIC. Second part is like a
series of review articles on different PIC methods.
- Tajima Computational Plasma Physics: With Applications to Fusion and
Astrophysics Addison Wesley Frontiers in physics Series.
Algorithms described. Emphasis on physics that can be simulated.
Applications limited to plasmas, but subject areas very broad,
fusion, cosmology, solar astrophysics, magnetospheric physics,
plasma turbulence, general astrophysics.
Fluid Dynamics
- D.J. Tritton Physical Fluid Dynamics
- G.K. Batchelor Introduction to Fluid Dynamics
- S. Chandrasekhar Hydrodynamics and Hydromagnetic Stability
- Segel Mathematics Applied to Continuum Mechanics Dover.
Nonlinear Dynamics, Complexity, and Chaos
There is a FAQ posted regularly to sci.nonlinear.
- Prigogine, "Exploring Complexity"
Or any other Prigogine book. If you've read one, you read most of
all of them (A Poincaré recurrence maybe?)
- Guckenheimer and Holmes Nonlinear Oscillations, Dynamical Systems, and
Bifurcations of Vector Fields Springer
Borderline phys/math. Advanced level. Nuts and bolts how to textbook.
No Saganesque visionary thing from the authors. They let the topic
provide all the razz-ma-tazz, which is plenty if you pay attention
and remember the physics that it applies to.
- Lichtenberg, A. J. and M. A. Lieberman (1982). Regular and Stochastic
Motion. New York, Springer-Verlag.
- Ioos and Joseph Elementary Stability and Bifurcation Theory. New York, Springer-Verlag.
- The Dreams Of Reason by Heinz Pagels.
He is a very clear and interesting, captivating writer, and
presents the concepts in a very intuitive way. The level is
popular science, but it is still useful for physicists who
know little of complexity.
- M.Mitchell Waldrop: Complexity.
A popular intro to the subject of spontaneous orders, complexity
and so on. Covers implications for economics, biology etc and not
just physics.
Optics (Classical and Quantum), Lasers
- Max Born and Emil Wolf Principles of Optics : Electromagnetic Theory of Propagation
standard reference.
- Sommerfeld, A:
For the more classically minded
- Allen and Eberly's Optical Resonance and Two-Level Atoms.
For quantum optics, the most readable but most limited.
- Goodman Introduction to Fourier Optics.
If it isn't in this book, it isn't Fourier optics.
- Quantum Optics and Electronics (Les Houches summer school 1963-or-4,
but someone has claimed that Gordon and Breach, NY, are going to
republish it in 1995), edited by DeWitt, Blandin, and Cohen-
Tannoudji, is noteworthy primarily for Glauber's lectures, which
form the basis of quantum optics as it is known today.
- Sargent, Scully, & Lamb: Laser Physics
- Yariv: Quantum Electronics
- Siegman: Lasers
- Shen: The Principles of Nonlinear Optics
- Meystre & Sargent: Elements of Quantum Optics
- Cohen-Tannoudji, Dupont-Roc, & Grynberg: Photons, Atoms and Atom-Photon
Interactions.
- Hecht: Optics
A very good intro optics book (readable by a smart college freshman,
but useful as a reference to the graduate student)
- Practical Holography by Graham Saxby, Prentice Hall: New York; 1988.
This is a very clear and detailed book that is an excellent
introduction to holography for interested undergraduate physics people, as
well as advanced readers, esp. those who are interested in the practical
details of making holograms and the theory behind them.
Mathematical Physics
Lie Algebra, Topology, Knot Theory, Tensors, etc.
These are books that are sort of talky and fun to read (but still
substantial - some harder than others). These include things
mathematicians can read about physics as well as vice versa. These
books are different than the "bibles" one must have on hand at all
times to do mathematical physics.
- Yvonne Choquet-Bruhat, Cecile DeWitt-Morette, and Margaret
Dillard-Bleick, Analysis, manifolds, and physics (2 volumes)
Something every mathematical physicist should have at her bedside
until she knows it inside and out - but some people say it's not
especially easy to read.
- Jean Dieudonne, A panorama of pure mathematics, as seen by N. Bourbaki,
translated by I.G. Macdonald.
Gives the big picture in math.
- Robert Hermann, Lie groups for physicists, Benjamin-Cummings, 1966.
- George Mackey, Quantum mechanics from the point of view of the theory
of group representations, Mathematical Sciences Research Institute,
1984.
- George Mackey, Unitary group representations in physics, probability,
and number theory.
- Charles Nash and S. Sen, Topology and geometry for physicists.
- B. Booss and D.D. Bleecker, Topology and analysis: the Atiyah-Singer
index formula and gauge-theoretic physics.
- Bamberg and S. Sternberg, A Course of Mathematics for Students of
Physics
- Bishop & Goldberg: Tensor Analysis on Manifolds.
- Flanders : Differential Forms with applications to the Physical Sciences.
- Dodson & Poston Tensor Geometry.
- von Westenholz: Differential forms in Mathematical Physics.
- Abraham, Marsden & Ratiu: Manifolds, Tensor Analysis and Applications.
- M. Nakahara, Topology, Geometry and Physics.
- Morandi: The Role of Topology in Classical and Quantum Physics
- Singer, Thorpe: Lecture Notes on Elementary Topology and Geometry
- L. Kauffman: Knots and Physics, World Scientific, Singapore, 1991.
- Yang, C and Ge, M: Braid group, Knot Theory & Statistical Mechanics.
- Kastler, D: C-algebras and their applications to Statistical
Mechanics and Quantum Field Theory.
- Courant and Hilbert Methods of Mathematical Physics Wiley
Really a math book in disguise. Emphasis on ODE's and PDE's.
Proves existence, etc. Very comprehensive. 2 volumes.
- Cecille Dewitt: is publishing a book on manifolds that
should be out soon (maybe already is). Very high level, but supposedly
of great importance for anyone needing to set the Feynman path integral
in a firm foundation.
- Howard Georgi, Lie Groups for Particle Phyiscs
Addison Wesley Frontiers in Physics Series.
- Synge and Schild
Atomic Physics
- Max Born: Atomic Physics
A classic, though a little old.
- Gerhard Herzberg. Atomic spectra and atomic structure, Translated
with the co-operation of the author by J. W. T.Spinks. -- New York,
Dover publications, 1944
Old but good.
- E. U. Condon and G. H. Shortley, The theory of atomic spectra,
CUP 1951
- G. K. Woodgate, Elementary atomic structure, 2d ed. --Oxford : New
York : Clarendon Press, Oxford University Press, 1983, c1980
Introductory level.
- Alan Corney, Atomic and laser spectroscopy, Oxford, New York :
Clarendon Press, 1977
Excellent,fairly advanced, large experimental bent, but good
development of background. Good stuff on lasers (gas, dye)
Low Temperature Physics, Superconductivity
- The Theory of Quantum Liquids, by D. Pines and P. Nozieres
- Superconductivity of Metals and Alloys, P. G. DeGennes
A classic introduction.
- Theory of Superconductivity, J. R. Schrieffer
- Superconductivity, M. Tinkham
- Experimental techniques in low-temperature physics, by Guy K. White.
This is considered by many as a "bible" for those working in
experimental low temperature physics.
Thanks to the 30 plus contributors who made this compilation possible.