User:Zephyr the west wind/Theta term

The most common setting is on four-dimensional, flat spacetime (Minkowski space).

As a gauge theory, the theory has a gauge symmetry under the action of a gauge group, a Lie group ${\displaystyle G}$ , with associated Lie algebra ${\displaystyle {\mathfrak {g}}}$  through the usual correspondence.

The field content is the gauge field ${\displaystyle A_{\mu }}$ , also known in geometry as the connection. It is a ${\displaystyle 1}$ -form valued in a Lie algebra ${\displaystyle {\mathfrak {g}}}$ .

In this setting the theta term action is^[3] $${\displaystyle S_{\theta }={\frac {\theta }{16\pi ^{2}}}\int d^{4}x\,{\text{tr}}(F_{\mu \nu }*F^{\mu \nu })={\frac {\theta }{16\pi ^{2}}}\int \langle F\wedge F\rangle }$$  where

• ${\displaystyle F_{\mu \nu }}$  is the field strength tensor, also known in geometry as the curvature tensor. It is defined as ${\displaystyle F_{\mu \nu }=\partial _{\mu }A_{\nu }-\partial _{\nu }A_{\mu }+[A_{\mu },A_{\nu }]}$ , up to some choice of convention: the commutator sometimes appears with a scalar prefactor of ${\displaystyle \pm i}$  or ${\displaystyle g}$ , a coupling constant.
• ${\displaystyle *F^{\mu \nu }}$  is the dual field strength, defined ${\displaystyle *F^{\mu \nu }={\frac {1}{2}}\epsilon ^{\mu \nu \rho \sigma }F_{\rho \sigma }}$ .
  • ${\displaystyle \epsilon ^{\mu \nu \rho \sigma }}$  is the totally antisymmetric symbol, or alternating tensor. In a more general geometric setting it is the volume form, and the dual field strength ${\displaystyle *F}$  is the Hodge dual of the field strength ${\displaystyle F}$ .
• ${\displaystyle \theta }$  is the theta-angle, a real parameter.
• ${\displaystyle {\text{tr}}}$  is an invariant, symmetric bilinear form on ${\displaystyle {\mathfrak {g}}}$ . It is denoted ${\displaystyle {\text{tr}}}$  as it is often the trace when ${\displaystyle {\mathfrak {g}}}$  is under some representation. Concretely, this is often the adjoint representation and in this setting ${\displaystyle {\text{tr}}}$  is the Killing form.

The action can be written as^[3] $${\displaystyle S_{\theta }={\frac {\theta }{8\pi ^{2}}}\int d^{4}x\,\partial _{\mu }\epsilon ^{\mu \nu \rho \sigma }{\text{tr}}\left(A_{\nu }\partial _{\rho }A_{\sigma }+{\frac {2}{3}}A_{\nu }A_{\rho }A_{\sigma }\right)={\frac {\theta }{8\pi ^{2}}}\int d^{4}x\,\partial _{\mu }\epsilon ^{\mu \nu \rho \sigma }{\text{CS}}(A)_{\nu \rho \sigma },}$$  where ${\displaystyle {\text{CS}}(A)}$  is the Chern–Simons 3-form.

Classically, this means the theta term does not contribute to the classical equations of motion.

nLab