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advanced_tools:group_theory:representation_theory:adjoint_representation [2018/04/15 16:38]
aresmarrero [Concrete]
advanced_tools:group_theory:representation_theory:adjoint_representation [2023/03/19 21:41] (current)
edi [Concrete]
Line 2: Line 2:
  
 <tabbox Intuitive> ​ <tabbox Intuitive> ​
 +The adjoint representation describes how the generators of the group, which live in the Lie algebra, transform. In other words, the adjoint representation acts on the Lie algebra. Note that the Lie algebra is a vector space and thus can serve as a representation space.
  
-<note tip> +The dimensionality of the adjoint representation is equal to that of the Lie algebra. For examplethe adjoint representation of $SU(2)$ is 3 dimensional and the adjoint representation of $SU(3)$ is 8 dimensional
-Explanations in this section should contain no formulasbut instead colloquial things like you would hear them during a coffee break or at a cocktail party+ 
-</​note>​ +An important application of the adjoint representation is the transformation of gauge fields.
-  +
 <tabbox Concrete> ​ <tabbox Concrete> ​
   * For a detailed discussion, see [[http://​jakobschwichtenberg.com/​adjoint-representation/​|What’s so special about the adjoint representation of a Lie group?]] by J. Schwichtenberg   * For a detailed discussion, see [[http://​jakobschwichtenberg.com/​adjoint-representation/​|What’s so special about the adjoint representation of a Lie group?]] by J. Schwichtenberg
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 ---- ----
  
-[{{ :​advanced_tools:​group_theory:​representation_theory:​adjointaction.png?​nolink ​|Diagram by Eduard Sackinger}}] +**Example** 
- + 
 +The diagram below shows the defining representation of $SU(2)$ in its upper branch. To construct the adjoint representation,​ we use the Lie algebra as the representation space, as shown in the lower branch (red arrows). The group elements act on this space like $L'​=ULU^{-1}$ and the Lie-algebra elements act like $L'​=[J,​L]$. It is possible to rewrite the adjoint representation such that it acts on 3-dimensional vectors (as opposed to 2x2 matrices) by regular matrix-vector multiplication. 
 + 
 +[{{ :​advanced_tools:​group_theory:​representation_theory:​su2_adjoint.jpg?nolink }}] 
 + 
 +For a more detailed explanation of this diagram as well as adjoint representations of other groups, see [[https://​esackinger.wordpress.com/​blog/​lie-groups-and-their-representations/#​su2_adjoint|Fun with Symmetry]]. ​
 <tabbox Abstract> ​ <tabbox Abstract> ​
  
advanced_tools/group_theory/representation_theory/adjoint_representation.1523803127.txt.gz · Last modified: 2018/04/15 14:38 (external edit)