Abstract
We investigate systematically dimension-9 operators in the standard model effective field theory which contains only standard model fields and respects its gauge symmetry. With the help of the Hilbert series approach to classifying operators according to their lepton and baryon numbers and their field contents, we construct the basis of operators explicitly. We remove redundant operators by employing various kinematic and algebraic relations including integration by parts, equations of motion, Schouten identities, Dirac matrix and Fierz identities, and Bianchi identities. We confirm counting of independent operators by analyzing their flavor symmetry relations. All operators violate lepton or baryon number or both, and are thus non-Hermitian. Including Hermitian conjugated operators there are {left.384right|}_{Delta B=0}^{Delta L=pm 2}+{left.10right|}_{Delta B=pm 2}^{Delta L=0}+{left.4right|}_{Delta B=pm 1}^{Delta L=pm 3}+{left.236right|}_{Delta B=pm 1}^{Delta L=mp 1} operators without referring to fermion generations, and {left.44874right|}_{Delta B=0}^{Delta L=pm 2}+{left.2862right|}_{Delta B=pm 2}^{Delta L=0}+{left.486right|}_{Delta B=pm 1}^{Delta L=pm 3}+{left.42234right|}_{Delta B=mp 1}^{Delta L=pm 1} operators when three generations of fermions are referred to, where ∆L, ∆B denote the net lepton and baryon numbers of the operators. Our result provides a starting point for consistent phenomenological studies associated with dimension-9 operators.
Highlights
The effective interactions appear as higher-dimensional operators with effective couplings called Wilson coefficients
We investigate systematically dimension-9 operators in the standard model effective field theory which contains only standard model fields and respects its gauge symmetry
While the higher-dimensional operators in SMEFT are determined in terms of the SM fields and gauge symmetry, their Wilson coefficients are completely unknown and encode the information of new physics lying at a high scale ΛNP
Summary
We start with some notations and conventions. The SMEFT is an effective field theory above the electroweak scale ΛEW but far below some new physics scale ΛNP. To construct a basis for the operators, we first generate all possible field configurations from the HS [11], i.e., all subsets of ingredients (fermion and scalar fields, covariant derivative, and gauge field strength tensors) including the number of each ingredient that together can form a gauge and Lorentz invariant dim-9 operator. Let us start with Schouten identities which are useful in relating various Lorentz and gauge contractions involving totally antisymmetric constant tensors that would look independent. DμXνρ + Dν Xρμ + DρXμν = 0 , or Dν Xμν = 0 This will be useful in reducing operators containing both field strength tensors and covariant derivatives
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