Quantum Electrodynamics (Book): Difference between revisions

	Quantum Electrodynamics
Information
Author	Lev Landau
Language	English
Series	Course of Theoretical Physics
Publisher	Butterworth Heinemann
Publication Date	1976
Pages	170
ISBN-13	978-0-7506-2896-9

Revision as of 14:09, 20 September 2023

In a previous edition of volume 4, the theory of strong and weak nuclear forces was covered, as is mentioned in the preface to the second edition. In hindsight, it wasn't possible to predict the path of these developments which continue today; This shouldn't reflect negatively on this QED volume since the basics methods of the electromagnetic field have not changed, and continuing to experimental applications such as quantum optics will not feel anything lost in this treatment. The present authors and likely Landau himself had the foresight to restrict focus on what could be completely understood, and explain:

what a photon is, polarization
what a boson and fermion are, induced action by space-time symmetries
interaction of these particles with a classical field (to be thought of as a macroscopic lab environment)
radiation and application of the scattering/S-matrix concepts introduced in volume 3
perturbation and Feynman graph techniques to compute particle-particle interactions

And the level of mathematics developed is sufficient to continue to apply it to the quantum theory of metals and superfluid helium as in volume 9, condensed matter physics.

So what has gone beyond QED? As can be seen in Atiyah's book on gauge fields and Michelsohn-Lawson on Spin geometry, there is more geometric depth to the classical theory of fields. Standard QFT techniques dictate that we start with classical fields (either functions or gauge fields on bundles) and quantize them to produce a space of operators with desired commutation relations that also respect representation-theoretic aspects of the classical fields. At the quantum level, we measure amplitudes which are given by Green's functions/Correlation functions/propagators that relate the probabilities of processes relating individual points in space-time. These are integrated together to give individual operators on the abstract Hilbert space, which is captured in the Wightman formalism in the Fields and Strings book. Since then, multiple types of axiomatic QFT have emerged to pin down the space of QFTs as a mathematical and geometrical entity:

Wightman/correlator-based QFTs
Haag-Kastler/C*-algebra based QFTs (continued into Connes' approach)
Topological QFTs (originating with Atiyah, Witten, and Segal with axiomatic conformal field theory)

Applications

The Quantum Theory of Fields 1, Foundations

Foundations of Quantum Field Theory by Steven Weinberg

Applications of Lie Groups to Differential Equations

The Quantum Theory of Fields 2, Gauge Theory by Steven Weinberg.

Quantum Fields and Strings: A Course for Mathematicians

Axiomatic classical and quantum field theory for mathematicians.

Local Quantum Physics: Fields, Particles, Algebras

C*-algebraic quantum field theory by Rudolph Haag.

Noncommutative Geometry, Quantum Fields and Motives

Noncommutative Geometry, Quantum Fields and Motives by Alain Connes and Matilde Marcolli.

Renormalization and Effective Field Theory

Renormalization and Effective Field theory by Kevin Costello

Conformal Field Theory

Conformal Field theory by Philippe Di Francesco, Pierre Mathieu, and David Sénéchal.

Vertex Algebras for Beginners

Vertex Algebras for Beginners by Victor Kac.

Vertex Algebras and Algebraic Curves

Vertex Algebras and Algebraic Curves by Edward Frenkel and David Ben-Zvi.

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