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Books on Quantum Mechanics?

Posted by Cliff on from the curiosity-MAY-have-killed-shrödinger's-cat dept.

manjunaths asks: "I would like to ask the physicists here to recommend some books on Quantum Mechanics. For those of us who have a decent background in calculus and have done some advanced physics (field theory, network theory etc.,). The books must have math as well as theoretical explanation. If it has examples which explain/relate to real world physics that would be really nice."

8 of 79 comments (clear)

  1. Sounds like Feynman's texbooks by Muhammar · · Score: 5, Informative

    Try Feynman Lectures, Feynman "Six Easy Pieces" and "Six Not-So-Easy Pieces". Most of the physics has not aged from the time the books was written, - QED, relativistic gravitation and the Standard model were almost complete by then. And he had unusual gift for readability and ingenuous practical examples. [I think he won some teaching awards for his books, also.]

    That is what I heard - but try to ask some physicist next time :)

    Here is a nifty interview with Feynman (1979):
    http://www.omnimag.com/archives/interview s/feynman .html

    --
    I doubt that we will ever figure out - and I suspect that even if we did figure out we couldn't do much about it
  2. Griffiths by poincaraux · · Score: 4, Informative

    There is absolutely no question. David Griffith's Introduction to Quantum Mechanics is by far the best intro book out there. His prose is amazing, his explainations are always interesting and illuminating, and (pehaps best of all), he always gets the math right.

    If you haven't poked around in a lot of intro (or "advanced"!) quantum books, you may not realize how important those things (especially the math bit) are. But it wouldn't matter if hadn't read any other books. If you gave them all a fair shot, you'd choose Griffiths because his explanations are just so much better than everyone else's.

    Trust me. Griffiths.

    Once you've read it, you may be ready for something more advanced (maybe Sakurai, or even the poorly written but still amazingly complete Cohen and Tannoudji, or even Feynman's QED), but nothing compares to Griffiths for a good introduction to Quantum.

    1. Re:Griffiths by jgardn · · Score: 4, Informative

      I second that. The book is very well written -- I would argue that it is probably the best written book I had during the entire four years I was there.

      However, before you dive into Griffith's, you'll really have to brush up on Calculus and Differential Equations, as well as a variety of mathematics that you probably won't see unless you are going to grad school in math. The best book for this is "Mathematical Methods in the Physical Sciences" by Mary Boas.

      This book was used for the "weed-out" class in the sophomore year at the University of Washington Physics department. The reason was that if you couldn't keep up with the math, and if you couldn't make sense of it all, than you really couldn't cut it as a physicist. It was the class where 100 people show up the first quarter, and 15 show up the next (because the other 85 lost interest or failed). Those 15 graduated with reasonably good grades.

      If you complete Boas's book, and you can understand the math behind Griffith's book, then you are well on to your way to grad school in physics, if you desire it. Just brush up in a few other areas (EM, thermo, GR, etc...), and you might be ready for the GRE.

      Anyway, it'll be interesting having another "real" physicist around here who actually understands what the Uncertainty Principle really means and where it comes from and its effect on the universe, rather than these posers who have no idea that a fourier transform applies to QM at all.

      --
      The radical sect of Islam would either see you dead or "reverted" to Islam.
  3. QM, sort of? by ThorGod · · Score: 3, Informative

    Check out here. That's a GPL'ed book a professor at my school (go NM Tech!) has written as an interesting freshman year physics book. It covers some basic QM, amonsgt the other things you usually get freshman year in physics.

    In earnest, that book is a work in progress and it's really important to do the problems to get the full meaning from the text.

    Hope that helps :)

    --
    PS: I don't reply to ACs.
  4. A couple of classics by balamw · · Score: 5, Informative
    I'm a Physics Ph.D. and I found the following most useful in grad school while studying for the quals.
    • Cohen-Tannoudji: very comprehensive, but perhaps overwhelming due to its heft/cost. Heavy into Dirac (bra-ket) notation.
    • Landau: requires the most calculus, lots left as "an exercise to the reader"
    • Sakurai: Probably the best place to start if you want an in depth yet introductory course.

    But it really depends on YOU, I for one could only learn scattering from Landau, but found the book less than perfect for many other topics. Others in my class had quite the opposite reaction. It depends on what "clicks" for you, and how deep you want to go into what topics.

    Balam

  5. The best by Henry+V+.009 · · Score: 3, Informative

    Quantum Theory This is Bohm's book. This is simply the best QM book ever written. You'll need Fourier analysis. If you are really interested in learning QM, that requirement will give you more confidence in this book, not less.

    I'm sure you've heard of the EPR (sometimes called EPR-Bohm) experiments. The last chapters (and best chapters) of the book are where Bohm lays out his idea for an experiment to actually test EPR -- which is more or less the method used today. (written around 1952, I believe. The experiments weren't conducted until the 1980's.)

    Although Bohm's book is one of the best defenses of orthodox quantum mechanics, Bohm went on to propose a non-local, hidden variable version of QM several years after writing the textbook. This theory turned out to have been mathematically identical to de Broglie's pilot wave formulation, which he had thrown out because he thought that non-local EPR effects were obviously impossible. Here is a page with introductions: Intros. Learn the orthodox theory first.

  6. Here's a few I used during my degree by KDan · · Score: 4, Informative

    And which are absolutely excellent to give you a very solid grounding in quantum mechanics and quantum physics.

    Mandl's Quantum Mechanics in the Manchester Physics Series
    Gasiorowicz's Quantum Physics is absolutely excellent. It goes from simple stuff to pretty complicated stuff and tends to cover things in a thorough, 'no-fudge' way so that you have a solid perspective of how it should be done
    Eisberg and Resnick's "Quantum Physics of Atoms, Molecules, Solids, Nuclei, and Particles" is good for bringing it all together with atomic physics, nuclear physics and particle physics
    Bransden and Joachain's "Quantum Mechanics" Absolutely excellent. Goes into a LOT of details on everything. If there's anything you don't understand, you're likely to find it here in an understandable form (where other books just mention it in passing, this one will actually spell it out in full, which is well nice when you're in trouble with a concept)

    That should get you started pretty well. After that you might want to get Dirac's very own book to seriously absorb the dirac notation (I've found that his book was very clear even so many years after it's been written), then you'll need to get into the subject referred to during my degree as "quantum theory" - basically it is to "normal" quantum mechanics as lagrangian mechanics is to classical mechanics... just much nicer!

    Good luck,

    Daniel

    --
    Carpe Diem
  7. I'm a physics major... by kenthorvath · · Score: 4, Informative
    ...and the books on every postdoc's shelf are:

    Eisberg, Resneck - Quantum Physics of Atoms, Molecules, a Solids, Nuclei, and Particles (047187373X) (undergraduate level, introductory)

    Sakurai - Modern Quantum Mechanics (0805375015) (graduate level, good for matrix mechanics)

    French, Taylor - Quantum Physics (?) (Introductory)

    The much touted Griffiths is good as well, but is also very terse and doesn't go very much in depth. There is almost no motivation for QM to begin with. I suggest starting with French and Taylor or Eisberg,Resneck. Then read Sakurai before you are ready to go into field theory.