Gradient RG Flow in Scalar-Fermion QFTs

Abstract

The gradient property of the renormalisation group (RG) is examined to four-loop order in scalar-fermion systems in d=4 and d=4- dimensions. The crucial role played by the beta shift, which is a modification of the standard dim-reg beta function, is elucidated, and specific conditions that it needs to satisfy for the RG flow to be gradient are derived. Over a thousand gradient-flow conditions are found, all of which are scheme-independent and satisfied whenever the full set of results needed to check them is available. It is shown, in the framework of the =4-d expansion, that the space of conformal field theories (CFTs) is dominated by those with non-zero beta shift as the number of fields grows. Physical properties of CFTs obtained as solutions where the beta functions are not zero in the expansion are discussed.

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