We have computed the first 30 even-N moments for the double fermionic (n(f)(2)) part of the quark-to-gluon splitting function P-gq at the fourth order of perturbative QCD via the renormalization of off-shell operator matrix elements. From these results we have determined the all-N form, and hence the exact x-space expression, using systems of Diophantine equations for its coefficients. The dominant and subdominant leading small-x n(f)(2) contributions to P-gq((3)) (x) are of the form x(-1) ln x and ln(4) x, respectively; the leading large-x term is ln(4) (1-x). The coefficient of the first of these is new, the other two agree with results obtained before and thus provide checks of our results.
The double fermionic contribution to the four-loop quark-to-gluon splitting function
Falcioni, G.Membro del Collaboration Group
;
2024-01-01
Abstract
We have computed the first 30 even-N moments for the double fermionic (n(f)(2)) part of the quark-to-gluon splitting function P-gq at the fourth order of perturbative QCD via the renormalization of off-shell operator matrix elements. From these results we have determined the all-N form, and hence the exact x-space expression, using systems of Diophantine equations for its coefficients. The dominant and subdominant leading small-x n(f)(2) contributions to P-gq((3)) (x) are of the form x(-1) ln x and ln(4) x, respectively; the leading large-x term is ln(4) (1-x). The coefficient of the first of these is new, the other two agree with results obtained before and thus provide checks of our results.
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