Composite field

In quantum field theory, a composite field is a field defined in terms of other more "elementary" fields. It might describe a composite particle (bound state) or it might not.

It might be local, or it might be nonlocal. However, "quantum fields do not exist as a point taken in isolation," so "local" does not mean literally a single point.^[1]

Composite fields use a very specific kind of statistics, called "duality and arbitrary statistics".^[2]

Under Noether's theorem, Noether fields are often composite fields,^[3] and they are local.

In the generalized LSZ formalism, composite fields, which are usually nonlocal, are used to model asymptotic bound states.^{[citation needed]}

References

^ General Principles of Quantum Field Theory. Springer Netherlands. 2012. pp. 379, 381. ISBN 9789400904910. Retrieved June 12, 2025.
^ Marino, Eduardo C. (2017). Quantum Field Theory Approach to Condensed Matter Physics. Cambridge University Press. pp. 175–178. ISBN 9781108508858. Retrieved June 12, 2025.
^ Duncan, Anthony (2012). The Conceptual Framework of Quantum Field Theory. Oxford University Press. pp. 430–431. ISBN 9780199573264. Retrieved June 12, 2025.

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[1] General Principles of Quantum Field Theory. Springer Netherlands. 2012. pp. 379, 381. ISBN 9789400904910. Retrieved June 12, 2025.

[2] Marino, Eduardo C. (2017). Quantum Field Theory Approach to Condensed Matter Physics. Cambridge University Press. pp. 175–178. ISBN 9781108508858. Retrieved June 12, 2025.

[3] Duncan, Anthony (2012). The Conceptual Framework of Quantum Field Theory. Oxford University Press. pp. 430–431. ISBN 9780199573264. Retrieved June 12, 2025.

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Composite field

See also

References