Computer Physics Communications Program LibraryPrograms in Physics & Physical Chemistry |

[Licence| Download | New Version Template] aeln_v1_0.tar.gz(558 Kbytes) | ||
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Manuscript Title: Algorithmic derivation of functional renormalization group equations and Dyson-Schwinger equations | ||

Authors: Markus Q. Huber, Jens Braun | ||

Program title: DoFun | ||

Catalogue identifier: AELN_v1_0Distribution format: tar.gz | ||

Journal reference: Comput. Phys. Commun. 183(2012)1290 | ||

Programming language: Mathematica 7 and higher. | ||

Computer: PCs and workstations. | ||

Operating system: All on which Mathematica is available (Windows, Unix, MacOS). | ||

Keywords: Dyson-Schwinger equations, Functional renormalization group equations, Correlation functions, Quantum field theory. | ||

PACS: 11.10.-z, 03.70.+k, 11.15.Tk, 11.15.-q. | ||

Classification: 11.1, 11.4, 11.5, 11.6. | ||

Nature of problem:Derivation of functional renormalization group equations and Dyson-Schwinger equations from the given action of a theory. | ||

Solution method:Implementation of an algorithm to derive functional renormalization group and Dyson-Schwinger equations. | ||

Unusual features:The results can be plotted as Feynman diagrams in Mathematica. The output is compatible with the syntax of many other programs and is therefore suitable for further (algebraic) computations. | ||

Running time:Seconds to minutes. |

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