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Diagrammatica: The Path to Feynman Diagrams (Cambridge Lecture Notes in Physics, Series Number 4) 1st Edition
Purchase options and add-ons
- ISBN-100521456924
- ISBN-13978-0521456920
- Edition1st
- PublisherCambridge University Press
- Publication dateJune 16, 1994
- LanguageEnglish
- Dimensions6 x 0.74 x 9 inches
- Print length296 pages
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Editorial Reviews
Review
"...would be a useful and solid starting point for a novice field theorist..." R. Delbourgo, Mathematical Reviews
Book Description
From the Back Cover
Product details
- Publisher : Cambridge University Press; 1st edition (June 16, 1994)
- Language : English
- Paperback : 296 pages
- ISBN-10 : 0521456924
- ISBN-13 : 978-0521456920
- Item Weight : 14.4 ounces
- Dimensions : 6 x 0.74 x 9 inches
- Best Sellers Rank: #1,253,500 in Books (See Top 100 in Books)
- #89 in Particle Physics
- #156 in Waves & Wave Mechanics (Books)
- #1,141 in Quantum Theory (Books)
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Veltman spends a lot of time helping the reader get his or her head wrapped around the idea of Hilbert space. This cleared my head for what was to follow.
It is one of the few books that does not assume you already know the subject. I recommend it for electrical engineers like myself. No idea is hard to understand when the author values communicating notions over notation!
Five stars for Martinus Veltman!
Martinus Veltman
(27 June 1931- 4 January 2021)
Martinus Veltman, how to characterize his work ? As with Richard Feynman, meaningful characterizations always fall short of the mark. That mark falls between the text of Mandl & Shaw on one hand, Peskin & Schroeder on the other ! I quote Martinus Veltman: "...to make it clear which principles are behind the rules, and to define clearly the calculational details." Let us read from Martinus Veltman:
(1) "Perturbation theory means Feynman diagrams." (first page of the Introduction).
(2) "Apparently, in Quantum Mechanics, the potential becomes something like the photon wave function."
(page 11).
(3) "What is a physical state ?...A physical state is simply a possible physical situation." (page 33).
(4 )"A particle with four states is really nothing else but four different particles..." (page 71).
(5) "The important thing is how fields transform,we will define locality as a mathematical property." (page 80-81).
(6) "The physically important quantities,however, are not the fields, but the interaction Hamiltonian." (page 84).
(7) "Pion decay and PCAC make up one of the most interesting subjects of particle physics, it has played a very large role in the discovery of gauge theories." (page 124).
(8) "The choice as to what kind of field describes an observed particle is really a matter of choice; try what kind of field describes best the observed data." (page 169).
(9) "The limit of zero mass of a massive graviton is not equal to the zero mass case; and from the experimental observations one may actually deduce that the massless graviton is what nature uses." (page 177).
(10) " keep this in mind: A theory with massless vector particles, such as quantum electrodynamics, or quantum chromodynamics, must have gauge invariance else the theory is not Lorentz Invariant." (page 179).
(11) "For all practical purposes, the Feynman rules represent the true content of a theory." (page 183).
This book is intended as an introduction. Plenty of intermediate steps are included in calculations. The exercises are straightforward: Exercise #6.4, Page 148 is typical (routine, short, calculation left to the devices of the reader, here, the section on Power Counting. Hints provided to help with those solutions. An Appendix provides mathematical supplement pertaining to matrices. Another Appendix provides a basic introduction to dimensional regularization. "Feynman's trick" for Integrals: Somewhat surprisingly, Veltman supplies details (page 139) for what amounts to a rather elementary exercise for the reader ! Earlier in the book, contour integral techniques are utilized (for an example, page 64 regarding bound states). Also, one must (not unusual at this level) be conversant with Fourier transforms (page 66).
The brief book is a favorite: At 200 pages, Martinus Veltman unravels the physics behind the "Feynman Rules."
Careful study will be rewarded. The book is replete with words of wisdom plus technical tools of the trade.
Follow-up with Veltman's Quantum Theory of Gravitation,1975 Methods In Field Theory: " In these lectures we will approach the theory of Gravitation from the point of view of quantum field theory."
Martinus Veltman makes a nice complement to Peskin and Schroeder.
1999 Physics Nobel prize winners) for physicists. Mathematical
rigour was definitely not one of Veltman's major concerns when he
wrote this book. However clarity was indeed a big issue for him
and that is most unusual if you take into account that most Nobel
prize awarded physicist, are usually much more concerned about
"image", "posterity" and "mathematical rigour" than by
pedagogical matters.
This book is a very good one to start with if you want to learn
QFT. It makes no use of the path integral formalism (which is the
prefered one by "modern" QFT theorists) . The canonical
formalism (the one used in this book) makes explicit the local
nature of QFT; this is an important issue since locallity stems
from Lorentz invariance and QFT is nothing but the physical
theory resulting from quantum mechanics and restricted
relativity. I fully agree with the statement that the path
integral method should be sistematically discarded in
introductory QFT books like this one.
As its title indicates, Feynman diagrams are the central issue of
this book. Veltman explains in the introduction: "This is then
the aim: to make it clear which principles are behind the
(Feynman) rules and to define clarly the calculation details".
This seems to be the natural choice for such an introductory
text; quoting Veltman again: " ... the theory (meaning QFT), or
rather the succesful part (of it), is perturbation theory ...
Perturbation theory means Feynman diagrams ".
This book provides a clear logical frame that supports the
calculation machinery of perturbative QFT's and should be
recommended to any person willing to introduce himself/herself in
Quantum Field Theory as a first choice course book.
Taking into account that this is an introductory book, its
short extension (200 pages) its scope is limited to QED and no
serious attempt is made to treat non-abelian theories.
One minor (for me it is minor, since my english is also rather
poor) annoyance: Even I (my mother tonge is spanish) can see
that the writing style is not very good and that some of the used
expressions are nothing more that literal translations from dutch
into english.