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Manifestly Soft Gauge Invariant Formulation of vNRQCD

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arxiv 1806.07398 v1 pith:PRV43XQ6 submitted 2018-06-19 hep-ph nucl-th

Manifestly Soft Gauge Invariant Formulation of vNRQCD

classification hep-ph nucl-th
keywords softheavypotentialquarkappearblocksbuildingfields
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Homogeneous power counting in Non-Relativistic QCD (NRQCD) implies the simultaneous existence of both soft and ultrasoft gluons. In the velocity renormalization group (vNRQCD) formalism we show that operators involving soft fields interacting with heavy potential quarks can be put in a manifestly gauge invariant form by utilizing gluon and quark building blocks which contain Wilson lines, and are analogous to those used in the soft collinear effective theory. This leads to several simplifications, in particular significantly reducing the size of the operator basis, which stream-lines matching and anomalous dimension calculations at subleading order in the velocity expansion. Also, soft ghosts no longer couple via potential like interactions to the heavy quark fields, and hence do not appear until two loops. Furthermore the the color structures that appear at each order in $\alpha_s$ in the static potential are only those which should arise according to non-Abelian exponentiation. We also discuss how zero-bin subtractions clarify the role of $i\varepsilon$ terms in the heavy quark propagator poles carrying soft momenta. Even though the choice of the direction of the soft Wilson lines in our building blocks does not matter, there is still a limited set of consistent choices, and the predicted form of the eikonal poles does influence results at two-loops and beyond.

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Cited by 3 Pith papers

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  1. Factorizing quarkonium production matrix elements using effective field theory

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    Factorizes NRQCD production matrix elements for S- and P-wave quarkonia into wavefunctions and universal chromo-electric/magnetic gluon correlators via hybrid vNRQCD/pNRQCD and Hubbard-Stratonovich transformation at l...

  2. Modeling the TMD shape function in $J/\psi$ electroproduction

    hep-ph 2025-10 unverdicted novelty 5.0

    NLO hard function in TMD factorization for quarkonium electroproduction with predictions for unpolarized J/ψ cross section at EIC.

  3. Toward an effective theory of quarkonium production in nuclear matter

    hep-ph 2019-07 unverdicted novelty 5.0

    NRQCD with Glauber gluons is proposed as a universal microscopic framework for quarkonium interactions across cold nuclear matter, dense hadron gas, and quark-gluon plasma phases.