The unpolarized and polarized single-mass three-loop heavy flavor operator matrix elements A$_{gg,Q}$ and ∆A$_{gg,Q}$

Article
Report number	arXiv:2211.05462 ; DESY 15-112 ; DO-TH 22/26 ; CERN-TH-2022-179 ; ZU-TH 53/22 ; RISC Report Series 22-25 ; MSUHEP-22-036
Title	The unpolarized and polarized single-mass three-loop heavy flavor operator matrix elements A$_{gg,Q}$ and ∆A$_{gg,Q}$
Author(s)	Ablinger, J. (Linz U., RISC) ; Behring, A. (DESY, Zeuthen ; CERN) ; Blümlein, J. (DESY, Zeuthen) ; De Freitas, A. (Linz U., RISC ; DESY, Zeuthen) ; Goedicke, A. (DESY, Zeuthen) ; von Manteuffel, A. (Michigan State U.) ; Schneider, C. (Linz U., RISC) ; Schönwald, K. (DESY, Zeuthen ; Zurich U.)
Publication	2022-12-22
Imprint	2022-11-10
Note	48 p LATEX, 4 figures
In:	JHEP 2212 (2022) 134
DOI	10.1007/JHEP12(2022)134 (publication)
Subject category	hep-ex ; Particle Physics - Experiment ; hep-ph ; Particle Physics - Phenomenology
Abstract	We calculate the gluonic massive operator matrix elements in the unpolarized and polarized cases, $A_{gg,Q}(x,\mu^2)$ and $\Delta A_{gg,Q}(x,\mu^2)$, at three-loop order for a single mass. These quantities contribute to the matching of the gluon distribution in the variable flavor number scheme. The polarized operator matrix element is calculated in the Larin scheme. These operator matrix elements contain finite binomial and inverse binomial sums in Mellin $N$-space and iterated integrals over square root-valued alphabets in momentum fraction $x$-space. We derive the necessary analytic relations for the analytic continuation of these quantities from the even or odd Mellin moments into the complex plane, present analytic expressions in momentum fraction $x$-space and derive numerical results. The present results complete the gluon transition matrix elements both of the single- and double-mass variable flavor number scheme to three-loop order.
Copyright/License	publication: © 2022-2024 The Authors (License: CC-BY-4.0), sponsored by SCOAP³ preprint: (License: CC BY 4.0)

$\sf The non--$N_F$ terms of $a_{gg,Q}^{(3)}(N)$ (rescaled) as a function of $x$. Full line (black): complete result; upper dotted line (red): term $\propto \ln(x)/x$; lower dashed line (cyan): small $x$ terms $\propto 1/x$; lower dotted line (blue): small $x$ terms including all $\ln(x)$ terms up to the constant term; upper dashed line (green): large $x$ contribution up to the constant term; dash-dotted line (brown): complete large $x$ contribution.$ $\sf The $N_F$ terms of $a_{gg,Q}^{(3)}(N)$ (rescaled) as a function of $x$. Full line (black): complete result; upper dotted line (red): term $\propto \ln(x)/x$; upper dashed line (cyan): small $x$ terms $\propto 1/x$; lower dotted line (blue): small $x$ terms including all $\ln(x)$ terms up the constant term; lower dashed line (green): large $x$ contribution up to the constant term; dash-dotted line (brown): full large $x$ contribution.$ $\sf The non--$N_F$ terms of $\Delta a_{gg,Q}^{(3)}(N)$ (rescaled) as a function of $x$. Full line (black): complete result; lower dotted line (red): term $\ln^5(x)$; upper dotted line (blue): small $x$ terms $\propto \ln^5(x)$ and $\ln^4(x)$; upper dashed line (cyan): small $x$ terms including all $\ln(x)$ terms up to the constant term; lower dash-dotted line (green): large $x$ contribution up to the constant term; dash-dotted line (brown): full large $x$ contribution.$ Show more plots

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记录创建於2022-11-12，最後更新在2024-09-21

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