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Toda field theoryIn the study of field theory and partial differential equations, a Toda field theory is derived from the following Lagrangian: Additional recommended knowledgeHere x and t are spacetime coordinates, (,) is the Killing form of a real r-dimensional Cartan algebra Then a Toda field theory is the study of a function φ mapping 2 dimensional Minkowski space satisfying the corresponding Euler-Lagrange equations. If the Kac-Moody algebra is finite, it's called a Toda field theory. If it is affine, it is called an affine Toda field theory (after the component of φ which decouples is removed) and if it is hyperbolic, it is called a hyperbolic Toda field theory. Toda field theories are integrable models and their solutions describe solitons. The sinh-Gordon model is the affine Toda field theory with the generalized Cartan matrix and a positive value for β after we project out a component of φ which decouples. The sine-Gordon model is the model with the same Cartan matrix but an imaginary β. References
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| This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Toda_field_theory". A list of authors is available in Wikipedia. |
![\mathcal{L}=\frac{1}{2}\left[\left({\partial \phi \over \partial t},{\partial \phi \over \partial t}\right)-\left({\partial \phi \over \partial x}, {\partial \phi \over \partial x}\right)\right ]-{m^2 \over \beta^2}\sum_{i=1}^r n_i e^{\beta \alpha_i(\phi)}.](images/math/d/2/8/d28e4d76c170ecb4f5ffa0076a360593.png)
of a Kac-Moody algebra over 
