TWiki> LHCPhysics Web>LHCHXSWGTTH>ProposaltTH (revision 7)EditAttachPDF
-- LauraReina - 2015-12-16

Standard setup for the comparison of tTH simulations at NLO QCD + Parton Shower

This is the setup we propose for the comparison of tTH production in NLO QCD+Parton Shower simulations.

General framework

For the comparison among existing NLO QCD+PS tools we will consider only the case of a scalar and will include only NLO QCD corrections. EW corrections will be discussed in the section on signal and are included in the tables that give fixed-order results obtained scanning over MH for various center of mass energy.

We propose to compare results from:

  • Sherpa2.1.1+Openloops1.2.2
  • MG5_aMC@NLO 2.3.2+Pythia8.2.1.0
  • POWHEG-BOX+Pythia8.2.1.0
  • PowHel+Pythia8.2.1.0
The last two simulations should give very similar results since they are both based on POWHEG, but they have never been compared and we think it will be useful to. Upon agreement, we would probably quote only one set of results based on the interface with POWHEG.

Simulation setup

All the input parameters will be chosen in compliance with the official Higgs HXSWG note https://cds.cern.ch/record/2047636/files/LHCHXSWG-INT-2015-006.pdf

Specific input parameters and PDFs

  • consider sqrt(s)=13 TeV;
  • use MH=125 GeV and mt=172.5 GeV (see recommendation);
  • use NLO PDF4LHC15;
  • 5F scheme
QCD scales and variations
  • dynamical renormalization/factorization scale choice: muR=muF=mu0=geometric mean of transverse energy of H,t,T, where transverse energy=sqrt(M^2+P_T^2)
  • scale uncertainties should be estimated with the usual independent factor-2 variations of (muR,muF) excluding antipodal variations
Resummation scale (HT/2)
  • In S-MC@NLO (Sherpa+OpenLoops) the resummation scale HT/2 should be used, with HT= sum of t,T,H transverse energies
  • In Powheg hdamp=HT/2 should be used
  • In MG5aMC@NLO
Other MC related aspects
  • hadronization, UE and QED shower should be switched off
  • no generation cuts should be applied; all cuts will be applied at the level of the Rivert analysis (see below)
Decays
  • two separate simulations: (a) tTH production w.o. decays and (b) with decays tTH-> 4b+e^+mu^- +2 neutrinos
  • for top and H->bb decays the BRs provided by the the shower should be used
  • spin correlation effects should be included in top decays

Analyses

The following two analyses (without and with decays) will be implemented in a public Rivet routine that will be available very soon.

(a) Observables for tTH production without decays

  • total cross section
  • pT and eta of t,T,H (20 bins from 0,500 GeV)
  • pT of tTH and tT (20 bins from 0,500 GeV)
  • geometric average of t,T,H transverse energies (20 bins from 0,1000 GeV)
  • HT=sum of t,T,H transverse energies (ignoring extra jet emissions) (20 bins from 400,1000 GeV)
(b) Observables for tTH-> e+ mu- nu nn + 4b (leptonic and b-jet cuts see below)
  • exclusive and inclusive b-jet multiplicity distribution after leptonic cuts; the following observables should be computed with leptonic cuts and requiring four b-jets
  • pT and eta of first four b-jets, e+, mu- (20 bins from 0,400 GeV)
  • phi(l+,l-) (azimuthal angle between hardest l+ and l-), studying effects of spin correlation in this last case
  • MET (20 bins from 0,400 GeV)
Basic leptonic cuts for tTH-> e+ mu- nu nn + 4b
  • 2 charged leptons with pT>20GeV and eta<2.5
  • MET>30GeV
b-jets
  • b-jets are defined as R=0.4 anti-kT b-jets with pT>25GeV and eta<2.5, which contain at least 1 b-quark
Rivet analyses
  • Rivet routines that implement the above two analyses (as well as example plots corresponding to a LO+PS simulation) can be found at this URL
    • hxswg_tth_dilep = with dileptonic decays
    • hxswg_tth_stable = without decays
Edit | Attach | Watch | Print version | History: r19 | r9 < r8 < r7 < r6 | Backlinks | Raw View | Raw edit | More topic actions...
Topic revision: r7 - 2015-12-22 - LauraReina
 
    • Cern Search Icon Cern Search
    • TWiki Search Icon TWiki Search
    • Google Search Icon Google Search

    LHCPhysics All webs login

This site is powered by the TWiki collaboration platform Powered by PerlCopyright & 2008-2021 by the contributing authors. All material on this collaboration platform is the property of the contributing authors.
or Ideas, requests, problems regarding TWiki? use Discourse or Send feedback