Analyzing Monojet Dark Matter

Purpose of this page

In order to have information about the steps of the analysis centralized, we could write down any significant information, making it up to dated.

How to produce ntuples

How to produce distributions from LHE

Will come soon.

How to do full simulation

Will come soon.

Producing Ntuples from MiniAOD

These are the instruction on how to create Ntuples from MiniAOD via CRAB3.

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First, setup the working area (instruction from Chang-Seong):

cmsrel CMSSW_7_4_1
cd CMSSW_7_4_1/src
cmsenv

git cms-merge-topic 9003
rm -rf RecoEgamma/ElectronIdentification/data
git clone https://github.com/cms-data/RecoEgamma-ElectronIdentification.git RecoEgamma/ElectronIdentification/data

rm -rf RecoEgamma/PhotonIdentification/data
git clone https://github.com/cms-data/RecoEgamma-PhotonIdentification.git RecoEgamma/PhotonIdentification/data

Copy directory from Angelo's public are using scp:

assantos@access.sprace.org.br:/home/assantos/Public/DarkMatter/WorkingAread_27Jul2015/MonoXAnalysis/

If wanting to produce Ntuples in signal region (0) or control region (1), edit file MonoXAnalysis/AnalysisStep/plugins/MonoJetTreeMaker.cc selecting

cleanMuonJet=0;      // (1) for Muon control regtion    // (0) for Muon signal regtion
cleanElectronJet=0; // (1) for Electron control regtion // (0) for Electron signal regtion
cleanPhotonJet=0;   // (1) for Photon control regtion  // (0) for Photon signal regtion

Then compile the working area:

scramv1 b -j 10.

Then go to MonoXAnalysis/AnalysisStep/test/ and apply the proper modifications in tree.py and crabConfig.py if running over Data or MC.

Current JSON files are:

Setup CRAB with

source /cvmfs/cms.cern.ch/crab3/crab.sh

and submit jobs with

crab submit -c crabConfig.py.

For further details on how to work with CRAB3, see here.

Samples for Run2 (data, background and signal)

List of samples from Data Run2

The following table contains the list of Data samples (Run2015B-PromptReco-v1), as well as the correspondent number of events and luminosity.

Data Run2 (Run2015B-PromptReco-v1 from DAS)	Number of events (from DAS)	Luminosity (1/pb)
`/MET/Run2015B-PromptReco-v1/MINIAOD`	299090	40.215
`/DoubleMuon/Run2015B-PromptReco-v1/MINIAOD`	1631653	46.337
`/SingleMuon/Run2015B-PromptReco-v1/MINIAOD`	3633477	46.337
`/DoubleEG/Run2015B-PromptReco-v1/MINIAOD`	5018488	40.240
`/SingleElectron/Run2015B-PromptReco-v1/MINIAOD`	2718409	40.240
`/SinglePhoton/Run2015B-PromptReco-v1/MINIAOD`	737246	40.240

These are the instructions to compute luminosity:

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Firstly, run

crab report -d <path_to_your_crab_directory/>

You get a file in lumiSummary.json format inside <path_to_your_crab_directory/results/>. Then, copy file lcr2.py from /afs/cern.ch/user/m/marlow/public/lcr2/ into your lxplus and run

python lcr2.py -i lumiSummary.json

which will show the luminosity for that dataset. For further details, see here.

The following table shows the paths to the Data Ntuples in T2_SPRACE which includes events after the good vertex selection:

offlineSlimmedPrimaryVertices
!isFake && ndof > 4 && abs(z) < 24 && position.Rho < 2

Path of Ntuple for Data Run2 (Run2015B-PromptReco-v1) in T2_SPRACE	Number of events
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/MET_Run2015B.root`	137584
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/DoubleMuon_Run2015B.root`	1152197
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/SingleMuon_Run2015B.root`	2010988
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/DoubleEG_Run2015B.root`	4773783
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/SingleElectron_Run2015B.root`	2217177
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/SinglePhoton_Run2015B.root`	561242

The following table contains the list of Data samples (Run2015B-17Jul2015-v1) INTENDED to be produced in Ntuple format, as well as the correspondent number of events and luminosity. According to MiniAOD Analysis Documentation, this datasets correctly include E_T^missing filters. It is important to use the recommendations provided by MET group concerning Spring15 MC and 50 ns about:

Data Run2 (Run2015B-17Jul2015-v1 from DAS)	Number of events (from DAS)	Luminosity (1/pb)
`/MET/Run2015B-17Jul2015-v1/MINIAOD`	75938
`/DoubleMuon/Run2015B-17Jul2015-v1/MINIAOD`	497402
`/SingleMuon/Run2015B-17Jul2015-v1/MINIAOD`	1039658
`/DoubleEG/Run2015B-17Jul2015-v1/MINIAOD`	4567275
`/SingleElectron/Run2015B-17Jul2015-v1/MINIAOD`	1027225
`/SinglePhoton/Run2015B-17Jul2015-v1/MINIAOD`	323203

List of MC samples for background (Run2 Spring15)

The following table contains the list of MC background samples (Run2 Spring15) with correspondent number of events and cross sections (from different sources). As mentioned in the Exo Diboson twiki page, "If only the lepton decay of the W is included in the sample, the cross section is multiplied by BR(W->lv) = 0.322 with l = e, mu, tau", and the references for cross sections come from:

MC Background Spring15 (from DAS)	Number of events (from DAS)	Cross Section (pb) from DAS	Cross Section (pb) from other reference
`/WJetsToLNu_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1/MINIAODSIM`	24089991	60290	61526.7 (NNLO) [1]
`/TTJets_TuneCUETP8M1_13TeV-madgraphMLM-pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1/MINIAODSIM`	4992231	502.2	502.2 (NNLO) [2]
`/ST_t-channel_top_4f_leptonDecays_13TeV-powheg-pythia8_TuneCUETP8M1/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1/MINIAODSIM`	1273800	103.02	136.02*0.322 (NLO) [3]
`/ST_t-channel_antitop_4f_leptonDecays_13TeV-powheg-pythia8_TuneCUETP8M1/RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1/MINIAODSIM`	1695400	80.95	80.95*0.322 (NLO) [3]
`/ST_tW_top_5f_inclusiveDecays_13TeV-powheg-pythia8_TuneCUETP8M1/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1/MINIAODSIM`	998400	38.09	35.6 (NNLO) [3]
`/ST_tW_antitop_5f_inclusiveDecays_13TeV-powheg-pythia8_TuneCUETP8M1/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2/MINIAODSIM`	1000000	38.09	35.6 (NNLO) [3]
`/WW_TuneCUETP8M1_13TeV-pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1/MINIAODSIM`	989608	63.21	118.7 (NNLO) [1]
`/WZ_TuneCUETP8M1_13TeV-pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2/MINIAODSIM`	996920	22.82	66.1 (NLO) [1]
`/ZZ_TuneCUETP8M1_13TeV-pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2/MINIAODSIM`	998848	10.32	15.4 (NLO) [1]
`/QCD_Pt_120to170_TuneCUETP8M1_13TeV_pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1/MINIAODSIM`	3446207	471100	---
`/QCD_Pt_170to300_TuneCUETP8M1_13TeV_pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2/MINIAODSIM` (Being produced)	3438066	117276	---
`/QCD_Pt_300to470_TuneCUETP8M1_13TeV_pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1/MINIAODSIM`	2930578	7823	---
`/QCD_Pt_470to600_TuneCUETP8M1_13TeV_pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2/MINIAODSIM` (Being produced)	1939229	648.2	---
`/QCD_Pt_600to800_TuneCUETP8M1_13TeV_pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2/MINIAODSIM` (Being produced)	1890256	186.9	---
`/QCD_Pt_800to1000_TuneCUETP8M1_13TeV_pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2/MINIAODSIM` (Being produced)	1911296	32.293	---
`/QCD_Pt_1000to1400_TuneCUETP8M1_13TeV_pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2/MINIAODSIM` (Being produced)	1461216	9.4183	---
`/QCD_Pt_1400to1800_TuneCUETP8M1_13TeV_pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1/MINIAODSIM`	197959	0.84265	---
`/QCD_Pt_1800to2400_TuneCUETP8M1_13TeV_pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1/MINIAODSIM`	194924	0.114943	---
`/QCD_Pt_2400to3200_TuneCUETP8M1_13TeV_pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1/MINIAODSIM`	198383	0.00682981	---
`/QCD_Pt_3200toInf_TuneCUETP8M1_13TeV_pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1/MINIAODSIM`	188696	0.000165445	---
`/DYJetsToLL_M-50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8/RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2/MINIAODSIM`	19925500	6104	6025.2 (NNLO) [1]

The following table shows the paths to the MC background Ntuples in T2_SPRACE site which includes events after the good vertex selection:

offlineSlimmedPrimaryVertices
!isFake && ndof > 4 && abs(z) < 24 && position.Rho < 2

Path of Ntuple for MC Spring15 in T2_SPRACE	Number of events
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/WJetsToLNu.root`	24089978
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/TTJets.root`	4992231
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/ST_t-channel_top_4f_leptonDecays.root`	1273800
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/ST_t-channel_antitop_4f_leptonDecays.root`	1695400
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/ST_tW_top_5f_inclusiveDecays.root`	998400
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/ST_tW_antitop_5f_inclusiveDecays.root`	1000000
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/WW.root`	989608
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/WZ.root`	996920
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/ZZ.root`	998847
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/QCD_Pt_120to170.root`	3446207
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/QCD_Pt_300to470.root`	2930577
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/QCD_Pt_1400to1800.root`	197959
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/QCD_Pt_1800to2400.root`	194924
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/QCD_Pt_2400to3200.root`	198383
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/QCD_Pt_3200toInf.root`	188696
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/RunIISamples_25Jul2015/Ntuples_DataMC_27Jul2015/DYJetsToLL_M-50.root`	19925488

List of MC samples for background (Phys14)

The following table contains the list of MC background samples (Phys14) with correspondent number of events and cross sections.

MC Background Phy14 (from DAS)	Number of events (from DAS)	Cross Section (pb) from DAS
`/ZJetsToNuNu_HT-100to200_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	4986424	372.6
`/ZJetsToNuNu_HT-200to400_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	4546470	100.8
`/ZJetsToNuNu_HT-400to600_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v2/MINIAODSIM`	4433784	11.99
`/ZJetsToNuNu_HT-600toInf_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	4463806	4.113
`/WJetsToLNu_HT-100to200_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	5262265	1817.0
`/WJetsToLNu_HT-200to400_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	4936077	471.6
`/WJetsToLNu_HT-400to600_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	4640594	55.61
`/WJetsToLNu_HT-600toInf_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	4581841	18.81
`/TTJets_MSDecaysCKM_central_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	25446993	831.76
`/TToLeptons_s-channel-CSA14_Tune4C_13TeV-aMCatNLO-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	500000	2.3328
`/TToLeptons_t-channel-CSA14_Tune4C_13TeV-aMCatNLO-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	3991000	136.02
`/T_tW-channel-DR_Tune4C_13TeV-CSA14-powheg-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	986100	35.6
`/TBarToLeptons_s-channel-CSA14_Tune4C_13TeV-aMCatNLO-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	250000	1.34784
`/TBarToLeptons_t-channel_Tune4C_CSA14_13TeV-aMCatNLO-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	1999800	26.2278
`/Tbar_tW-channel-DR_Tune4C_13TeV-CSA14-powheg-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	971800	35.6
`/QCD_HT-100To250_13TeV-madgraph/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	4123612	28730000
`/QCD_HT_250To500_13TeV-madgraph/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	971800	670500
`/QCD_HT-500To1000_13TeV-madgraph/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	849033	26740.0
`/QCD_HT_1000ToInf_13TeV-madgraph/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	333733	769.7
`/QCD_HT_250To500_13TeV-madgraph/Phys14DR-PU20bx25_PHYS14_25_V1_ext1-v2/MINIAODSIM`	2004219	670500
`/QCD_HT-500To1000_13TeV-madgraph/Phys14DR-PU20bx25_PHYS14_25_V1_ext1-v1/MINIAODSIM`	3214312	26740.0
`/QCD_HT_1000ToInf_13TeV-madgraph/Phys14DR-PU20bx25_PHYS14_25_V1_ext1-v1/MINIAODSIM`	1130720	769.7
`/DYJetsToLL_M-50_HT-100to200_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	4054159	194.3
`/DYJetsToLL_M-50_HT-200to400_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	4666496	52.24
`/DYJetsToLL_M-50_HT-400to600_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	4931372	6.546
`/DYJetsToLL_M-50_HT-600toInf_Tune4C_13TeV-madgraph-tauola/Phys14DR-PU20bx25_PHYS14_25_V1-v1/MINIAODSIM`	4493574	2.179

The following table shows the paths to the MC background Ntuples in T2_SPRACE site which includes events after the good vertex selection.

Path of Ntuple for MC Phys14 in T2_SPRACE	Number of events
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/ZJetsToNuNu_HT-100to200_PHYS14.root`	4986410
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/ZJetsToNuNu_HT-200to400_PHYS14.root`	4546455
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/ZJetsToNuNu_HT-400to600_PHYS14.root`	4433769
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/ZJetsToNuNu_HT-600toInf_PHYS14.root`	4463773
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/WJetsToLNu_HT-100to200_PHYS14.root`	5262249
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/WJetsToLNu_HT-200to400_PHYS14.root`	4936055
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/WJetsToLNu_HT-400to600_PHYS14.root`	4640575
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/WJetsToLNu_HT-600toInf_PHYS14.root`	4581825
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/TTJets_MSDecaysCKM_centra.root`	25446877
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/TToLeptons_s-channel_PHYS14.root`	499999
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/TToLeptons_t-channel_PHYS14.root`	3990985
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/T_tW-channel-DR_PHYS14.root`	986096
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/TBarToLeptons_s-channel_PHYS14.root`	250000
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/TBarToLeptons_t-channel_PHYS14.root`	1999793
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/Tbar_tW-channel-DR_PHYS14.root`	971797
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/QCD_HT-100To250_PHYS14.root`	4123591
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/QCD_HT_250to500_PHYS14.root`	663953
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/QCD_HT_500to1000_PHYS14.root`	849028
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/QCD_HT_1000toInf_PHYS14.root`	333732
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/QCD_HT_250to500_ext1_PHYS14.root`	2004211
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/QCD_HT_500to1000_ext1_PHYS14.root`	3214303
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/QCD_HT_1000toInf_ext1_PHYS14.root`	1130715
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/DYJetsToLL_HT-100to200_PHYS14.root`	4054144
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/DYJetsToLL_HT-200to400_PHYS14.root`	4666479
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/DYJetsToLL_HT-400to600_PHYS14.root`	4931352
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/Backgrounds_18Jun2015/DYJetsToLL_HT-600toInf_PHYS14.root`	4493550

List of MC samples for signal (i2HDM)

The following table shows the path of MC samples for i2HDM signal in T2_SPRACE, as well as the number of generated events, the number events after the good primary vertex selection, and the cross section. There are samples considering cases of h1h1 and h1h2 DM production.

Path of Ntuple for i2HDM signal in T2_SPRACE	Number of generated events (from LHE)	Number of events in level of Ntuple	Cross Section (pb)
h1h1 DM production
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/I2HDM_13TeV/i2HDM_Ntuples_30Jul2015/i2hdm_BM1_h1h1j_13tev-single_Ntuple.root`	50000	50000	0.17
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/I2HDM_13TeV/i2HDM_Ntuples_30Jul2015/i2hdm_BM2_h1h1j_13tev-single_Ntuple.root`	50000	50000	0.77
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/I2HDM_13TeV/i2HDM_Ntuples_30Jul2015/i2hdm_BM3_h1h1j_13tev-single_Ntuple.root`	50000	50000	0.000043
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/I2HDM_13TeV/i2HDM_Ntuples_30Jul2015/i2hdm_BM4_h1h1j_13tev-single_Ntuple.root`	50000	50000	0.00012
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/I2HDM_13TeV/i2HDM_Ntuples_30Jul2015/i2hdm_BM5_h1h1j_13tev-single_Ntuple.root`	50000	50000	0.000023
h1h2 DM production
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/I2HDM_13TeV/i2HDM_Ntuples_30Jul2015/i2hdm_BM1_h1h2j_13tev-single_Ntuple.root`	50000	50000	0.17
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/I2HDM_13TeV/i2HDM_Ntuples_30Jul2015/i2hdm_BM2_h1h2j_13tev-single_Ntuple.root`	50000	50000	0.77
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/I2HDM_13TeV/i2HDM_Ntuples_30Jul2015/i2hdm_BM3_h1h2j_13tev-single_Ntuple.root`	50000	50000	0.000043
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/I2HDM_13TeV/i2HDM_Ntuples_30Jul2015/i2hdm_BM4_h1h2j_13tev-single_Ntuple.root`	50000	50000	0.00012
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/I2HDM_13TeV/i2HDM_Ntuples_30Jul2015/i2hdm_BM5_h1h2j_13tev-single_Ntuple.root`	50000	50000	0.000023

List of MC samples for signal (EFT)

The following table shows the path of MC samples for EFT signal in T2_SPRACE, as well as the number of generated events, the number events after the good primary vertex selection, and the cross section (from Monojet twiki page). These are samples with Axial-Vector and Vector cases.

Path of Ntuple for EFT signal in T2_SPRACE	Events in MiniAOD (from DAS)	Number of events in level of Ntuple	Cross Section (pb)
Axial-Vector
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/EFT_Samples_30Jul2015/Monojet1_M-1_AV_Tune4C_13TeV_PU20bx25_tsg_PHYS14_25_V1.root`	194600	194598	9.5695x10-7
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/EFT_Samples_30Jul2015/Monojet2_M-10_AV_Tune4C_13TeV_PU20bx25_tsg_PHYS14_25_V1.root`	190400	190399	9.5381x10-7
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/EFT_Samples_30Jul2015/Monojet3_M-100_AV_Tune4C_13TeV_PU20bx25_tsg_PHYS14_25_V1.root`	190000	190000	8.0087x10-7
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/EFT_Samples_30Jul2015/Monojet7_M-1000_V_Tune4C_13TeV_PU20bx25_tsg_PHYS14_25_V1.root`	194800	194798	4.6629x10-8
Vector
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/EFT_Samples_30Jul2015/Monojet5_M-10_V_Tune4C_13TeV_PU20bx25_tsg_PHYS14_25_V1.root`	191800	191799	9.5463x10-7
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/EFT_Samples_30Jul2015/Monojet6_M-100_V_Tune4C_13TeV_PU20bx25_tsg_PHYS14_25_V1.root`	189400	189399	9.0451x10-7
`/pnfs/sprace.org.br/data/cms/store/user/adesouza/DarkMatter/EFT_Samples_30Jul2015/Monojet7_M-1000_V_Tune4C_13TeV_PU20bx25_tsg_PHYS14_25_V1.root`	197200	197198	1.2438x10-7

Kinematic selections

This is the list of the standard Monojet selection applied in the signal region:

1 or 2 jets in the event
p_T(Jet1) > 110 GeV
- CH fraction > 0.2
- NH fraction < 0.7
- EM fraction < 0.7
- CEM fraction < 0.99
p_T(Jet2) > 30 GeV
- NH fraction < 0.7
- EM fraction < 0.9
ΔΦ(Jet1, Jet2) < 2.5
lepton veto
photon veto
MET > 200 GeV (PF MET with Type-1 corrections)

Kinematic distributions

Here we create distributions from Ntuples

Results from Physics14 samples

These figures were made with Physics14 samples for background while Spring15 samples are not ready. It does not have any selection other than good primary vertex.

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Results from Run2 Spring15 samples

See Chang-Seong's presentation in the Monojet meeting on 10/Aug/2015.

Computing limits

As preliminary results, only statistical uncertainties are taken into acccount.

Results from Run2 Spring15 samples

From preliminary results, the following figures show the expected limits using Spring15 MC samples for background. To compute these limits, we use the expected number of events got from page 19 of Chang-Seong's presentation in the Monojet meeting on 10/Aug/2015.

Limits considering EFT Dark Matter model

Figure on the letf (right) shows theoretical cross-sections for Axial Vector (Vector) Dark Matter. It is considered Lumi = 40.03 pb^-1. It takes into account the standard Monojet selection above, which leads to EFT signal samples with efficiencies from 11 to 14%. EFT signals present very low cross sections, as is showed in the table above. Here is the data card for Axial-Vector with DM mass = 1000 GeV using Lumi = 40.03 pb^-1:

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imax    1       number of channels
jmax    6       number of backgrounds
kmax    1       number of nuisance parameters
-----------------------------------------------------------------------------------
bin                     results
observation             940
-----------------------------------------------------------------------------------
bin                     results         results         results         results         results         results         results
process                 signal          ZJetsToNuNu     WJetsToLNu      Top             QCD             DYJetsToLL      Diboson
process                 0               1               2               3               4               5               6
rate                    5.95086         436.9           337.1           11              69.7            4.5             11.5
-----------------------------------------------------------------------------------
backgUncert     lnN     -               1.047837        1.0545832       1.301818        1.119799        1.471111        1.294783

Now we show the same plots, but including observed limits. Since the signal is not optimized because we are using the standard monojet selections, the number of observed events (940) is higher than the total number of expected events (871), leading to observed limits (30 - 40 pb) higher than the expected median limits (20 - 28 pb).

Figure on the letf (right) shows theoretical cross-sections for Axial Vector (Vector) Dark Matter. It is considered Lumi = 5 fb^-1. It takes into account the standard Monojet selection above. EFT signal samples have from 11 to 14% of efficiency. As expected, the increasing in luminosity did not bring any significant improvement. Here is the data card for Axial-Vector with DM mass = 1000 GeV using Lumi = 5 fb^-1:

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Hide

imax    1       number of channels
jmax    6       number of backgrounds
kmax    1       number of nuisance parameters
-----------------------------------------------------------------------------------
bin                     results
observation             0
-----------------------------------------------------------------------------------
bin                     results         results         results         results         results         results         results
process                 signal          ZJetsToNuNu     WJetsToLNu      Top             QCD             DYJetsToLL      Diboson
process                 0               1               2               3               4               5               6
rate                    743.3           54571.6         42105.9         1373.97         8705.97         562.078         1436.42
-----------------------------------------------------------------------------------
backgUncert     lnN     -               1.047837        1.0545832       1.301818        1.119799        1.471111        1.294783

Figure on the letf (right) shows theoretical cross-sections for Axial Vector (Vector) Dark Matter. It is considered Lumi = 5 fb^-1. It takes into account the standard Monojet selection above + E_T^missing > 500 GeV. EFT signal samples have from 1.5 to 3% of efficiency. The high E_T^missing cut improves the expected limits by 1 order of magnitude. The limits are between 0.3 and 0.6 pb, being compatible with the 0.4 pb found in the Search for New Physics in Monojet Final State (AN-15-072).

Limits considering i2HDM model

These figures show limits considering the i2HDM model (with different λ₃₄₅ for each mass point). It is considered:
- left figure: Lumi = 40.03 pb^-1 and standard Monojet selection, which leads to i2HDM signal samples with efficiencies from 17 to 21% and expected limits around 15 pb;
- right figure: Lumi = 5 fb^-1 and standard Monojet selection + E_T^missing > 500 GeV, which leads to i2HDM signal samples with efficiencies from 0.5 to 1.1% and expected limits around 1 pb.

Recent studies about limit calculations is in ThetaLimits.

-- assantos - 2015-07-24

Comments

Attachments

Topic attachments
I	Attachment	History	Action	Size	Date	Who	Comment
png	Results_NoSelection_jetjetdphi.png	r1	manage	16.5 K	2015-07-24 - 13:15	UnknownUser	dphi jet1 je2 NoSelection
png	Results_NoSelection_nelectrons.png	r1	manage	14.7 K	2015-07-24 - 15:47	UnknownUser	Number of electrons NoSelection
png	Results_NoSelection_njets.png	r1	manage	15.2 K	2015-07-24 - 13:04	UnknownUser	njets NoSelection
png	Results_NoSelection_nmuons.png	r1	manage	14.6 K	2015-07-24 - 15:47	UnknownUser	Number of muons NoSelection
png	Results_NoSelection_nphotons.png	r1	manage	14.7 K	2015-07-24 - 15:49	UnknownUser	Number of photons NoSelection
png	Results_NoSelection_ntaus.png	r1	manage	14.8 K	2015-07-24 - 15:48	UnknownUser	Number of taus NoSelection
png	Results_NoSelection_nvtx.png	r1	manage	17.5 K	2015-07-24 - 13:16	UnknownUser	Vertex multiplicity
png	Results_NoSelection_secondjetEMfrac.png	r1	manage	16.7 K	2015-07-24 - 15:46	UnknownUser	Jet2 EM fraction NoSelection
png	Results_NoSelection_secondjetNHfrac.png	r1	manage	17.6 K	2015-07-24 - 15:46	UnknownUser	Jet2 NH fraction NoSelection
png	Results_NoSelection_secondjeteta.png	r1	manage	14.7 K	2015-07-24 - 13:14	UnknownUser	eta2 NoSelection
png	Results_NoSelection_secondjetmetdphi.png	r1	manage	15.9 K	2015-07-24 - 13:17	UnknownUser	dphi jet2 met NoSelection
png	Results_NoSelection_secondjetpt.png	r1	manage	17.7 K	2015-07-24 - 13:12	UnknownUser	pt2 NoSelection
png	Results_NoSelection_signaljetCEMfrac.png	r1	manage	17.4 K	2015-07-24 - 15:45	UnknownUser	Jet1 CEM fraction NoSelection
png	Results_NoSelection_signaljetCHfrac.png	r1	manage	15.6 K	2015-07-24 - 15:43	UnknownUser	Jet1 CH fraction NoSelection
png	Results_NoSelection_signaljetEMfrac.png	r1	manage	16.6 K	2015-07-24 - 15:44	UnknownUser	Jet1 EM fraction NoSelection
png	Results_NoSelection_signaljetNHfrac.png	r1	manage	17.6 K	2015-07-24 - 15:44	UnknownUser	Jet1 NH fraction NoSelection
png	Results_NoSelection_signaljeteta.png	r1	manage	14.7 K	2015-07-24 - 13:13	UnknownUser	eta1 NoSelection
png	Results_NoSelection_signaljetmetdphi.png	r1	manage	16.8 K	2015-07-24 - 13:17	UnknownUser	dphi jet1 met NoSelection
png	Results_NoSelection_signaljetpt.png	r1	manage	19.3 K	2015-07-24 - 13:11	UnknownUser	pt1 NoSelection
png	Results_NoSelection_t1pfmet.png	r1	manage	21.6 K	2015-07-24 - 13:06	UnknownUser	MET NoSelection
png	limit_EFT_AV_CS_Data_Spring15_40invpb_13Aug2015.png	r1	manage	23.6 K	2015-08-13 - 11:36	UnknownUser	limit EFT AV Data Spring15 40 inv pb
png	limit_EFT_AV_CS_Spring15_40invpb_11Aug2015.png	r1	manage	25.9 K	2015-08-11 - 18:05	UnknownUser	limit EFT AV Spring15 40 inv pb
png	limit_EFT_AV_CS_Spring15_5invfb_11Aug2015.png	r1	manage	26.0 K	2015-08-11 - 18:12	UnknownUser	limit EFT AV Spring15 5 inv fb
png	limit_EFT_AV_CS_Spring15_5invfb_MET500_12Aug2015.png	r1	manage	25.3 K	2015-08-12 - 04:58	UnknownUser	limit EFT AV Spring15 5 inv fb MET > 500
png	limit_EFT_V_CS_Data_Spring15_40invpb_13Aug2015.png	r1	manage	22.8 K	2015-08-13 - 11:37	UnknownUser	limit EFT V Data Spring15 40 inv pb
png	limit_EFT_V_CS_Spring15_40invpb_11Aug2015.png	r1	manage	24.7 K	2015-08-11 - 18:09	UnknownUser	limit EFT V Spring15 40 inv pb
png	limit_EFT_V_CS_Spring15_5invfb_11Aug2015.png	r1	manage	24.7 K	2015-08-11 - 18:13	UnknownUser	limit EFT V Spring15 5 inv fb
png	limit_EFT_V_CS_Spring15_5invfb_MET500_12Aug2015.png	r1	manage	24.4 K	2015-08-12 - 05:00	UnknownUser	limit EFT V Spring15 5 inv fb MET > 500
png	limiti2HDM_CS_Spring15_40invpb_13Aug2015.png	r1	manage	23.6 K	2015-08-13 - 14:02	UnknownUser	limit i2DHM Spring15 40 inv pb
png	limiti2HDM_CS_Spring15_5invfb_MET500_13Aug2015.png	r1	manage	23.5 K	2015-08-13 - 16:51	UnknownUser	limit i2HDM Spring15 5 inv fb MET > 500 GeV
txt	tree.py.txt	r1	manage	6.3 K	2015-07-27 - 15:19	UnknownUser	Macro to create Ntuples from MiniAOD

Topic revision: r24 - 2022-08-22 - trtomei

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