TL;DR
This paper offers a practical guide for implementing supersymmetry calculations using Cadabra, covering Grassmann variables, superfields, and automating Lagrangian generation in a symbolic algebra system.
Contribution
It introduces a comprehensive method for automating supersymmetry computations with Cadabra, including implementation details for superfield expressions and Lagrangian generation.
Findings
Automated supersymmetric Lagrangian generation using Cadabra.
Implementation of Grassmann variables and superderivatives.
Guidelines for handling superfield expressions in symbolic algebra.
Abstract
This article provides a quick guide to the implementation of supersymmetry with Cadabra, a symbolic computer algebra system. Details are provided on the implementation of Grassmann variables, fermionic fields, supercharges, and superderivatives and the treatment of superfield expressions and supersymmetric Lagrangians. Finally, the automation of supersymmetric Lagrangian generation in the Cadabra programming framework is discussed.
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Taxonomy
TopicsQuantum Mechanics and Non-Hermitian Physics · Algebraic structures and combinatorial models · Black Holes and Theoretical Physics