The Schwinger's quantum action principle is a variational approach to quantum mechanics and quantum field theory.[1][2] This theory was introduced by Julian Schwinger in a series of articles starting 1950.[3]

Approach

In Schwingers approach, the action principle is targeted towards quantum mechanics. The action becomes a quantum action, i.e. an operator, . Although it is superficially different from the path integral formulation where the action is a classical function, the modern formulation of the two formalisms are identical.[4]

Suppose we have two states defined by the values of a complete set of commuting operators at two times. Let the early and late states be and , respectively. Suppose that there is a parameter in the Lagrangian which can be varied, usually a source for a field. The main equation of Schwinger's quantum action principle is:

where the derivative is with respect to small changes () in the parameter, and with the Lagrange operator.

In the path integral formulation, the transition amplitude is represented by the sum over all histories of , with appropriate boundary conditions representing the states and . The infinitesimal change in the amplitude is clearly given by Schwinger's formula. Conversely, starting from Schwinger's formula, it is easy to show that the fields obey canonical commutation relations and the classical equations of motion, and so have a path integral representation. Schwinger's formulation was most significant because it could treat fermionic anticommuting fields with the same formalism as bose fields, thus implicitly introducing differentiation and integration with respect to anti-commuting coordinates.

See also

References

  1. Schwinger, Julian (2001). Englert, Berthold-Georg (ed.). Quantum Mechanics. Berlin, Heidelberg: Springer Berlin Heidelberg. doi:10.1007/978-3-662-04589-3. ISBN 978-3-642-07467-7.
  2. Dittrich, Walter (2021), "The Quantum Action Principle", The Development of the Action Principle, SpringerBriefs in Physics, Cham: Springer International Publishing, pp. 79–82, doi:10.1007/978-3-030-69105-9_11, ISBN 978-3-030-69104-2, S2CID 236705758, retrieved 2022-10-19
  3. Schweber, Silvan S. (2005-05-31). "The sources of Schwinger's Green's functions". Proceedings of the National Academy of Sciences. 102 (22): 7783–7788. doi:10.1073/pnas.0405167101. ISSN 0027-8424. PMC 1142349. PMID 15930139.
  4. Bracken, P (1997-04-04). "Quantum mechanics in terms of an action principle". Canadian Journal of Physics. 75 (4): 261–271. doi:10.1139/p96-142. ISSN 0008-4204.
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