Higgs coupling analyses for FCC-ee
Samples are placed in a base directory chosen by the user, e.g. ~/Datasets/FCC/fcc_ee_higgs/samples/.
The official samples are in /eos/experiment/fcc/ee/datasets
Each sample is in a subdirectory, e.g. heppy/ee_to_ZH_Z_to_ll/CLIC_FCCee/Jan30/ee_to_ZH_Oct30. This subdirectory substring is enough to identify the sample, and is used as the sample name.
For samples produced with heppy (papas), the sample subdirectory contains:
- a root file
fcc_ee_higgs.analyzers.ZHTreeProducer.ZHTreeProducer_1/tree.rootcontaining theeventsTTree. - the
info.yamlfile that contains information about data processing:
processing:
nfiles: 100
ngoodfiles: 97
sample:
id: !!python/object:uuid.UUID
int: 202928111438401843621742064401199831137
jobtype: heppy
mother: pythia/ee_to_ZH_Oct30
nevents: 32864
nfiles: 1
ngoodfiles: 1
pattern: fcc_ee_higgs.analyzers.ZHTreeProducer.ZHTreeProducer_1/tree.root
software:
fcc_datasets: !!python/unicode 'df41188443d8b15436543f854ee7de77a6934036'
fcc_ee_higgs: !!python/unicode 'b01b8340ea89aa7cdbfbf9ac510f0bafc8f308b0'
heppy: !!python/unicode '7cb2d942997594a80988187d0ab50901627575b4'In this file:
- The
processingsection gives the total number of jobs (nfiles) and the total number of successful jobs (ngoodfiles) for the production of this sample. The computing efficiencyngoodfiles/njobsshould be accounting for in the sample normalization. - The
samplesection gives information about this sample, and in particular the name of its mother. - The
softwaresection gives the github commitid for the various software packages used to process the sample. It can be used to check that the different samples used in a given analysis are indeed compatible. Please note that the commitid do not have to be the same in a given analysis. However, if the commitids are different, you should probably check with git that no change has been made to the physics of the simulation or the analysis code between these commitids.
All heppy (papas) samples were produced by reading the pythia samples.
| Sample name | Pythia cross-section (pb) | Number of generated events | sqrts | Comments |
|---|---|---|---|---|
pythia/ee_to_ZH_Oct30 |
0.2 | 5e5 | 240 | Inclusive ZH production |
pythia/ee_to_ZZ_Sep12_A_2 |
1.35 | 2e6 | 240 | Inclusive ZZ production |
pythia/ee_to_WW_Dec6_large |
16.4 | 4e6 | 240 | Inclusive WW production |
The variables should be self-explanatory. The plotting code I use is here:
For example, for the CLIC-FCCee detector, the first script in bb mode currently plots the variable:
recoil_m
With this selection:
(zeds_1_iso_e/zeds_1_e<0.2) && (zeds_1_iso_e/zeds_1_e<0.2) && zeds_1_e>0 && zeds_2_e>0 && (abs(zeds_m-91)<4. && zeds_pt>10 && zeds_pz<50 && zeds_acol>100 && zeds_cross>10) && (zeds_1_pdgid==-zeds_2_pdgid) && ((jets_1_e<0 || jets_1_22_e/jets_1_e<0.8) && (jets_2_e<0 || jets_2_22_e/jets_2_e<0.8)) && (((jets_1_bmatch==1 && rndm<0.8) || (jets_1_bmatch==0 && rndm<0.004)) || ((jets_2_bmatch==1 && rndm<0.8) || (jets_2_bmatch==0 && rndm<0.004)))
For the CMS detector, the selection implements a different b tagging working point:
(zeds_1_iso_e/zeds_1_e<0.2) && (zeds_1_iso_e/zeds_1_e<0.2) && zeds_1_e>0 && zeds_2_e>0 && (abs(zeds_m-91)<4. && zeds_pt>10 && zeds_pz<50 && zeds_acol>100 && zeds_cross>10) && (zeds_1_pdgid==-zeds_2_pdgid) && ((jets_1_e<0 || jets_1_22_e/jets_1_e<0.8) && (jets_2_e<0 || jets_2_22_e/jets_2_e<0.8)) && (((jets_1_bmatch==1 && rndm<0.6) || (jets_1_bmatch==0 && rndm<0.003)) || ((jets_2_bmatch==1 && rndm<0.6) || (jets_2_bmatch==0 && rndm<0.003)))
Please note that the master commit will move overtime! If this documentation gets outdated, tell me.
Create your working directory:
mkdir test_ana
cd test_ana
git clone https://github.com/HEP-FCC/heppy.git
git clone https://github.com/cbernet/fcc_datasets.git
git clone https://github.com/cbernet/fcc-ee-higgs.git fcc_ee_higgs
git clone https://github.com/cbernet/cpyroot.git
git clone https://github.com/cbernet/tdr-style.git tdrstyleInitialize your environment:
source /cvmfs/fcc.cern.ch/sw/0.8.1/init_fcc_stack.sh
cd heppy
source ./init.sh
cd ..
cd fcc_datasets
source ./init.sh
cd ..
export FCCDATASETBASEOUT=/eos/experiment/fcc/ee/datasets
export PYTHONPATH=$PWD:$PYTHONPATHYou should now be able to use the official datasets. For example, list one of the heppy (papas) datasets:
lsdataset.py heppy/ee_to_ZH_Z_to_ll/CLIC_FCCee/Jan30/ee_to_ZH_Oct30
>
heppy/ee_to_ZH_Z_to_ll/CLIC_FCCee/Jan30/ee_to_ZH_Oct30
/afs/cern.ch/user/c/cbern/work/FCC/fcc_ee_higgs/samples/heppy/ee_to_ZH_Z_to_ll/CLIC_FCCee/Jan30/ee_to_ZH_Oct30
fcc_ee_higgs.analyzers.ZHTreeProducer.ZHTreeProducer_1/tree.root : {'good': True, 'n_events': 32864, 'zero_size': False}
{'processing': {'nfiles': 100, 'ngoodfiles': 100},
'sample': {'id': UUID('98aa885a-f206-4c87-9479-dbe5316e9861'),
'jobtype': 'heppy',
'mother': 'pythia/ee_to_ZH_Oct30',
'nevents': 32864,
'nfiles': 1,
'ngoodfiles': 1,
'pattern': 'fcc_ee_higgs.analyzers.ZHTreeProducer.ZHTreeProducer_1/tree.root'},
'software': {'fcc_datasets': u'df41188443d8b15436543f854ee7de77a6934036',
'fcc_ee_higgs': u'b01b8340ea89aa7cdbfbf9ac510f0bafc8f308b0',
'heppy': u'7cb2d942997594a80988187d0ab50901627575b4'}}Now go to the fcc_ee_higgs directory and start ipython
cd fcc_ee_higgs
ipythonPlot the mass recoiling against the Z boson, which decays to two leptons:
%run plot/plot_ZH_ll.py