TL;DR
ARGES is a new toolkit that simplifies the derivation of renormalisation group equations in perturbative quantum field theories, supporting symbolic computation and flexible input features.
Contribution
It introduces a versatile, symbolic toolkit for deriving RG equations applicable to any perturbatively renormalisable four-dimensional quantum field theory.
Findings
Supports symbolic rather than numeric computation
Handles unconventional scalar and Yukawa sectors
Includes algebraic simplification and interactive evaluation
Abstract
We present the initial release of ARGES, a toolkit for obtaining renormalisation group equations in perturbation theory. As such, ARGES can handle any perturbatively renormalisable four-dimensional quantum field theory. Notable further features include a symbolic rather than numeric computation, input of unconventional scalar and Yukawa sectors, an interactive evaluation and disentanglement as well as capabilities to inject algebraic simplification rules. We provide a conceptual and practical introduction into ARGES, and highlight similarities and differences with complementary packages.
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