M. C. Kumar scite author profile

We consider the production of a pseudo-scalar particle A at the LHC, and present accurate theoretical predictions for its inclusive cross section in gluon fusion. The prediction is based on combining fixed-order perturbation theory and all-order threshold resummation. At fixed order we include the exact next-to-next-to-leading order (NNLO) plus an approximate next-to-next-to-next-to-leading order (NLO) which is based on the recent computation at this order for the scalar case. We then add threshold resummation at next-to-next-to-next-to leading logarithmic accuracy (NLL). Various forms of threshold resummation are considered, differing by the treatment of subleading terms, allowing a robust estimate of the theoretical uncertainties due to missing higher orders. With particular attention to pseudo-scalar masses of 200 and 750 GeV, we also observe that perturbative convergence is much improved when resummation is included. Additionally, results obtained with threshold resummation in direct QCD are compared with analogous results as computed in soft-collinear effective theory, which turn out to be in good agreement. We provide precise predictions for pseudo-scalar inclusive cross section at 13 TeV LHC for a wide range of masses. The results are available through updated versions of the public codes ggHiggs and TROLL.

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Pseudo-scalar Higgs boson production at threshold N $$^3$$ 3 LO and N $$^3$$ 3 LL QCD

Ahmed

Kumar

Mathews

et al. 2016

Eur. Phys. J. C

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We present the first results on the production of pseudo-scalar through gluon fusion at the LHC to N 3 LO in QCD taking into account only soft gluon effects. We have used the effective Lagrangian that describes the coupling of pseudo-scalar with the gluons in the large top quark mass limit. We have used recently available quantities namely the three loop pseudo-scalar form factor and the third order universal soft function in QCD to achieve this. Along with the fixed order results, we also present the process dependent resummation coefficient for threshold resummation to N 3 LL in QCD. Phenomenological impact of these threshold N 3 LO corrections to pseudo-scalar production at the LHC is presented and their role to reduce the renormalisation scale dependence is demonstrated.

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Direct photon pair production at the LHC to in TeV scale gravity models

Kumar¹,

Mathews²,

Ravindran³

et al. 2009

Nuclear Physics B

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The first results on next-to-leading order QCD corrections to production of direct photon pairs in hadronic collisions in the extra dimension models-ADD and RS are presented. Various kinematical distributions are obtained to order α s in QCD by taking into account all the parton level subprocesses. Our Monte Carlo based code incorporates all the experimental cuts suitable for physics studies at the LHC. We estimate the impact of the QCD corrections on various observables and find that they are significant. We also show the reduction in factorisation scale uncertainity when O(α s ) effects are included.

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Diphoton signals in theories with large extra dimensions to NLO QCD at hadron colliders

et al. 2009

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We present a full next-to-leading order (NLO) QCD corrections to diphoton production at the hadron colliders in both standard model and ADD model. The invariant mass and rapidity distributions of the diphotons are obtained using a semi-analytical two cut-off phase space slicing method which allows for a successful numerical implementation of various kinematical cuts used in the experiments. The fragmentation photons are systematically removed using smooth-cone-isolation cuts on the photons. The NLO QCD corrections not only stabilise the perturbative predictions but also enhance the production cross section significantly.

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M. C. Kumar

Pseudo-scalar Higgs boson production at N $$^3$$ 3 LO $$_{\text {A}}$$ A +N $$^3$$ 3 LL $$'$$ ′

Pseudo-scalar Higgs boson production at threshold N $$^3$$ 3 LO and N $$^3$$ 3 LL QCD

Direct photon pair production at the LHC to in TeV scale gravity models

Diphoton signals in theories with large extra dimensions to NLO QCD at hadron colliders

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