DeWitt notation

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Physics often deals with classical models where the dynamical variables are a collection of functions {φα}α over a d-dimensional space/spacetime manifold M where α is the "flavor" index. This involves functionals over the φ's, functional derivatives, functional integrals, etc. From a functional point of view, this is equivalent to working with an infinite-dimensional smooth manifold where its points are an assignment of a function for each α and the procedure is in analogy with differential geometry where the coordinates are φα(x) where x is a point of M.

In the deWitt notation φα(x) is written as φi where i is now understood as an index covering both α and x.

So, given a smooth functional A, A,i stands for the functional derivative

\frac{\delta}{\delta \phi^\alpha(x)}A[\phi]

as a functional of φ. In other words, a "1-form" field over the infinite dimensional "functional manifold".

The Einstein summation convention is used. Alternatively,

A^i B_i \ \stackrel{\mathrm{def}}{=}\ \int_M d^dx \sum_\alpha A^\alpha(x) B_\alpha(x)
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