2018
DOI: 10.1103/physrevd.97.096006
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γ5 in the four-dimensional helicity scheme

Abstract: We investigate the regularization-scheme dependent treatment of γ 5 in the framework of dimensional regularization, mainly focusing on the four-dimensional helicity scheme (FDH). Evaluating distinctive examples, we find that for one-loop calculations, the recently proposed four-dimensional formulation (FDF) of the FDH scheme constitutes a viable and efficient alternative compared to more traditional approaches. In addition, we extend the considerations to the two-loop level and compute the pseudoscalar form fa… Show more

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Cited by 25 publications
(24 citation statements)
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“…In addition, the regular four-dimensional photon results in terms ∝ g µν [4] which in turn give rise to integrals with a strictly four-dimensional loop momentum k 2 [4] in the numerator. 5 This requires a careful implementation of an algebra with d s -, d-, and four-dimensional objects in the one-loop amplitude [48,49]. Regarding the double-real contributions the situation is even worse.…”
Section: Nnlo Corrections In Fdh and Hvmentioning
confidence: 99%
“…In addition, the regular four-dimensional photon results in terms ∝ g µν [4] which in turn give rise to integrals with a strictly four-dimensional loop momentum k 2 [4] in the numerator. 5 This requires a careful implementation of an algebra with d s -, d-, and four-dimensional objects in the one-loop amplitude [48,49]. Regarding the double-real contributions the situation is even worse.…”
Section: Nnlo Corrections In Fdh and Hvmentioning
confidence: 99%
“…a cutoff scale, in order to separate different IR regions. 21 Such separation of the phase space introduces instabilities in the numerical evaluation of cross sections and differential distributions [158][159][160][161], and some care has to be taken in order to obtain stable and reliable results. Furthermore, the knowledge of logarithmic and power-correction terms in the cutoff plays a relevant role in the identification of universal structures, in the development of regularisation prescriptions and in resummation programs [146][147][148][149][150][151][152][153][154][155]162].…”
Section: Higher-order Power Corrections At Nlomentioning
confidence: 99%
“…In dimensional schemes the problems are well-known (see e.g. the review [232]), and recent references have focused on comparing different γ 5 -prescriptions up to the two-loop level [21] and on determining gauge invariance-restoring counterterms for the Breitenlohner/Maison/'t Hooft/Veltman prescription of γ 5 [233]. Quite surprisingly, non-dimensional schemes are not exempted of issues in the presence of γ 5 [84,85].…”
Section: Factorization Breakingmentioning
confidence: 99%
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“…Indeed that is what we verify by applying a minimal prescription based on the symmetrization of the trace over the γ matrices involving γ 5 . This prescription does not make use of the property fγ 5 ; γ μ g ¼ 0, since the vanishing of such anticommutator inside divergent integrals is the origin of ambiguities [25] even when applied in the physical dimension [60,74]. Thus, for the traces involving four and six Dirac matrices and one γ 5 , we use…”
Section: A Abbj Anomaly Within Iregmentioning
confidence: 99%