HepSim

Repository with Monte Carlo simulations for particle physics

  • Nov 1, 2022, Higgs, WW, ZZ production at 240, 250 GeV (e+e-,mu+mu-)
  • Oct 27, 2022, Higgs, WW, ZZ production at 380 GeV
  • Oct 17, 2022: hs-tools was corrected for https
  • Sep 27, 2022: Interface improvements
  • Feb 01, 2022: Migration to ALCF's Eagle filesystem
  • Feb 14, 2021: ROOT6 support for Jas4pp program
  • Nov 25, 2020: Moving to a new web server.
  • Oct 22, 2020: Added OSG Connect storage (Snowmass21)
  • Aug 26, 2020: Radion model Wkk+gg.
  • June 5, 2020: Moving to a new (larger) web storage
  • May 21, 2020: Filtered 2-leptons in multijet QCD
  • Apr, 24, 2020: MG5/Pythia8 samples for KK+radion model
  • Feb 20, 2020: Several samples for dark QCD processes
  • Nov 28, 2019: DOI (Digital Object Identifier) by OSTI DOE (see osti.gov)
  • Apr 15, 2019: Moving to Globus (Petrel)
  • Sep.10 2018: Zprime/DM event samples
  • Mar.15 2018: Charged Higgs event samples
  • Sep,22 2017: Z+Higgs → nunu+XX event samples
  • Sep,15 2017: Higgs → mu+mu- event samples
  • Sep,10 2017: rfull059 tag with improved tracking strategy
  • Aug.25, 2017: rfull300 for the DPF (ATLAS/CMS -like) detector
  • Aug.7, 2017: J/Psi and Upsilon(S1) event samples for ep 45 GeV
  • Jun.29, 2017: rfull058 tag with improved tracking strategy from D.Blyth
  • Jun.20, 2017: rfull057 tag with alternative tracking strategy from D.Blyth
  • Jun.9, 2017: Reprocessing rfull009 - rfull015 tags after correcting timing problem in SLIC. Using modifications for low-memory footprint
  • Jun.9, 2017: Reprocessing rfull009 - rfull015 tags after correcting timing problem in SLIC. Using modifications for low-memory footprint
  • May.16, 2017: Production of rfull056 using SiEIC(v5) detector for EIC
  • Apr.30, 2017: CLIC 3 TeV e+e- samples using Pythia8
  • Apr.20, 2017: Started production of ep 35 GeV samples
  • Apr.13, 2017: New rfull015 with Geant10.3p1 using SiFCC(v7)
  • Apr.3, 2017: rfull054 and rfull055 using SiEIC(v4) detector
  • Feb.3, 2017: CLIC event samples for e+e- at 380 GeV. Link to events
  • Feb.1, 2017: Updated rfull053 using SiEIC(v3) detector including track timing
  • Nov.12, 2016: Production of rfull053 using SiEIC(v3) detector for EIC
  • Nov.2, 2016: Production of rfull101 using SiCEPC(v2) detector for CEPC
  • Nov.2, 2016: Production of Higgs+V for different CM energies (8-100 TeV pp)
  • Oct.31,2016: Production of rfull052 using SiEIC(v2) detector for EIC
  • Oct.14, 2016: Production of rfast005 for FCC-hh (pp 100 TeV) using Delphes-3.3.3
  • Sep.23, 2016: Production of rfull051 using SiEIC(v1) detector for EIC
  • Sep.15, 2016: Z'(5 TeV) to different channels using several SiFCC(v7) geometries
  • Aug.28, 2016: rfull010, rfull011, rfull012and rfull013 for SiFCC(v7) using HCAL cells from 1 to 20 cm
  • Aug.11, 2016: Production of rfull009 for 100 TeV (pp) with SiFCC-hh (v7) detector using new Pandora
  • Aug.9, 2016: OSG grid pack with new (fast) PandoraPFA from J.Marshall
  • Jul.27, 2016: Simulation of SiFCC-hh (v7) detector for 100 TeV (pp) (rfull008)
  • Jul.24, 2016: Inclusive jets (100 TeV pp)  tev100_qcd_pythia8_ptall
  • Jul.13, 2016: Increase in statistics for ttbar+b (13 TeV pp) to 2.1 ab-1 tev13_mg5_ttbar_bjet
  • Jun.20, 2016: Samples with single and double K-long for calorimeter studies. See KL samples
  • May 19, 2016: Creating rfull007 for the SiFCC-hh (v5) detector with coarse HCAL granularity
  • May 19, 2016: Re-processing rfull006 for SiFCC-hh (v4) after fixing endcap.
  • Apr 8, 2016: H+ttbar (MG5) for 13 TeV (pp) (link)
  • Apr 3, 2016: A new tag for fast simulation of 14 TeV (pp) (rfast004)
  • Mar.29, 2016: Simulation of SiFCC-hh (v4) detector for 100 TeV (pp) (rfull006)
  • Mar.26, 2016. All data sources were redirected to OSG due to a problem at ANL
  • Mar.9, 2016: Fast simulation of ttbar+N jet process (pp, 14 TeV, MG5) (link)
  • Mar.4, 2016: Full simulation of SiFCC-hh (v3) detector for 100 TeV (pp) (rfull005)
  • Feb.5, 2016: Single particles for ITK studies (ATLAS phase II upgrade) (link)
  • Feb.1, 2016: Z' with M=10,20,40 TeV decaying to qqbar, ttbar, WW for full simulations (link)
  • Jan.19, 2016: 10 TeV Z' using a full simulation with 40 and 64 HCAL layers (link)
  • Jan.14, 2016: TTbar+N jet process (pp, 14 TeV, MG5) (link)
  • Jan.06, 2016: Heavy Higgs simulation (mu+mu-, 5 TeV) (link)
  • Dec.17, 2015: Full SiD detector simulation of Zprime (10 TeV) to WW (link)
  • Dec.17, 2015: Heavy higgs simulation for pp at 100 TeV (link)
  • Dec.07, 2015: Full SiD detector simulation of Zprime to tautau (link)
  • Nov.25, 2015: Particle gun samples for detector performance studies (pgun)
  • Nov.18, 2015: Simulation of ttbar+bjet at 13,14,100 TeV (mg5_ttbar_bjet)
  • Nov.9, 2015: Full simulation for e+e- (250 GeV) for SiD-CC (rfull002)
  • Nov.6, 2015: Fast simulation of DIS events for EIC (141gev%rfast001)
  • Oct.22, 2015: DIS events at the EIC collider (141 GeV)
  • Oct.16, 2015: Delphes 3.3 fast simulation for ATLAS-like (13tev%rfast002) and CMS-like (13tev%rfast003) detectors. Same for 14 TeV.
  • Oct.16, 2015: b-tagging was corrected for the tag rfast002
  • Oct.15, 2015: Please update hs-toolkit.tgz
  • Oct.9, 2015: Delphes 3.3 simulation of pp events (100 TeV) using the FCC detector (rfast002)
  • Oct.6, 2015: Full simulation. e+e- events (250 GeV) for the SiD detector (rfull001)
  • Sep.27, 2015: Fast simulation. e+e- events (250 GeV) for the ILD detector (rfast001)

Dataset: "tev13pp_pythia8_gkk2radion2gg"

Summary Comments
Name: tev13pp_pythia8_gkk2radion2gg
DOI identifier: 10.34664/1618434 (osti.gov link)
Collisions: pp
CM Energy: 13 TeV
Entry ID: 344
Topic: Exotics
Generator: PYTHIA8
Calculation level: LO+PS+hadronisation
Process: Gkk decaying to a radion and Z0
Total events: 1275000
Number of files: 255
Cross section (σ): 0.0226 ± 0.0002 pb Estimated from file Nr 1
Luminosity (L): 5.634E+07 pb-1   (or)   5.634E+04 fb-1   (or)   56.3374 ab-1
Format: ProMC
Download URL: https://mc.hep.anl.gov/asc/hepsim/events/pp/13tev/pythia8_gkk2radion2gg/ Status: Available
Mirrors:
https://portal.nersc.gov/project/m1758/data/events/pp/13tev/pythia8_gkk2radion2gg/
https://g-a5428.fd635.8443.data.globus.org/events/pp/13tev/pythia8_gkk2radion2gg/
https://stash.osgconnect.net/collab/project/HepSim/events/pp/13tev/pythia8_gkk2radion2gg/
https://mc.hep.anl.gov/asc/hepsim/events/pp/13tev/pythia8_gkk2radion2gg/
EVGEN size: 8.769 GB
  Reconstruction tag Tags:
Fast simulation:
Full simulation:
 
Fast/Full size: 0.00 GB
Record slimmed: Yes
Events weighted: No
Submission time: Sun Apr 19 15:47:57 UTC 2020
Updated on: Wed Jun 17 19:20:44 UTC 2020
Description:
Production of Gkk (with different masses) decaying to a radion and Z boson. The radion decays to 2 gluons. Z boson decays to leptons. The events are designed to study kinematics of events. Each file is created with a fixed mass of Gkk and radion, assuming that the mass of M(Gkk)>M(radion)+M(Z0). The mass for Gkk and radion is included as
pythia8_gkk2radion2gg_g[M1]_r[M2]
where M1 is the mass of Gkk (in GeV), and M2 is the mass of radion (in GeV). 5000 events generated per file. Event record is slimmed to reduce the disk space.

References

  • K.Agashe etc, https://arxiv.org/abs/1711.09920, Phys.Rev.D99, 075016 (2019)
  • K.Agashe etc, https://arxiv.org/abs/1612.00047, JHEP05(2017) 078
  • K.Agashe, etc. https://arxiv.org/abs/1809.07334, JHEP11(2018) 027

Pythia8 parameters

The files use the A14 ATLAS tune with NNPDF23_lo_as_0130_qed. All parameter settings are included in the logfiles inside separate the ProMC files. The cross sections reported by Pythia8 cannot be used for physics. You need to run a dedicated program to estimate the cross sections for these process. Width for Gkk and radion may not be reliably calculated by Pythia8.

File metadata:
ProMC version: 4; Nr events: 5000; Varint E: 100000; Varint L: 1000; Logfile: logfile.txt; Last modified: 2020-04-19 12:29:50; Settings: PYTHIA-8.235; ApplyParticleSlim=on ;EventsNumber=5000;Random:setSeed = on;Random:seed = 0;Beams:idA = 2212;Beams:idB = 2212;Beams:eCM = 13000.;HardQCD:all = off;ParticleDecays:tau0Max = 10;Tune:pp = 14;Tune:ee = 7;PDF:pSet = LHAPDF6:NNPDF23_lo_as_0130_qed;PDF:extrapolate = on;SpaceShower:rapidityOrder = on;SigmaProcess:alphaSvalue = 0.140;SpaceShower:pT0Ref = 1.56;SpaceShower:pTmaxFudge = 0.91;SpaceShower:pTdampFudge = 1.05;SpaceShower:alphaSvalue = 0.127;TimeShower:alphaSvalue = 0.127;BeamRemnants:primordialKThard = 1.88;MultipartonInteractions:pT0Ref = 2.09;MultipartonInteractions:alphaSvalue = 0.126;ColourReconnection:reconnect=on;ColourReconnection:range=1.71;ExtraDimensionsG*:ffbar2G* = on;5100039:onMode = on ;5100039:oneChannel = 1 1.0 103 23 32;5100039:name=Gkk;5100039:onMode = off;5100039:onIfAny = 32;32:onMode = off;32:oneChannel = 1 1.0 103 21 21;32:name=radion;32:onIfAny = 21;23:onMode = off;23:onIfAny = 11 -11 13 -13;5100039:m0 = 1200;32:m0 = 100;

Validation:
Nr Analysis code Output image Output data
1  
fourbody_rad.py

 
Run

JDAT file
Author: K.Agashe, S.Chekanov

         
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