===== Using rivet searches in Contur ===== === MET+JET === **0-lepton + MET + nJets SUSY search (3.2/fb)**. HEPData entry: https://www.hepdata.net/record/ins1458270 Has a rivet routine ! https://rivet.hepforge.org/analyses/ATLAS_2016_I1458270 On HEPdata, tables 4-10 contain the Meff distributions which contain the SRs, with info about the Data, SM Bkg (inc uncertainties split by stat and syst). This is perfect for CONTUR ! Here is one, but there are 7 SRs... {{ :2019:tools:searchmeas:figfigure5a.png?400 |}} Unfortunately the rivet routine only quotes the integrated signal in those regions and is not linked to the HEPdata entry. This was fairly trivial to change by filling a Histo1D, and using the ref data from HEPData as ref. The exclusion power of using this 3.2/fb search in CONTUR was tested using a Z'-mediated DM model.. {{ :2019:tools:searchmeas:d04-x01-y02.png?400 |}} The sensitivity scan here is for different values of Z' and DM mass in the Z'-mediated DM model: {{ :2019:tools:searchmeas:combinedhybrid_integrateds02_csto.png?400 |}} And it gives a similar sensitivity to a Jet+MET measurement at the same luminosity: {{ :2019:tools:searchmeas:combinedhybrid_jetmetonly_csto.png?400 |}} Th next step is that we can update to the full 36/fb version which is on HEPdata here: https://www.hepdata.net/record/77891 but does not yet have a Rivet routine... this should be an easy copy over from the 3/fb version. Has many more SRs: o(20)! === Full Run II dileptons === Andy, Louie, Tanya ... can we write a rivet routine for this and use it in contur? Good model to try this on is the Third Family Hypercharge Model studied in [[https://arxiv.org/abs/1904.10954|1904.10954]] {{ :2019:groups:tools:zprime_tfhm.tar.gz | (UFO files)}} The HEPData entry is here: https://www.hepdata.net/record/ins1725190?version=1 We want to reproduce the data from tables 1 and 2. Resolution functions are given in tables 23 and 24 as a function of truth Mll. These last tables basically give the values for the parameters of functions. Then we'd need to figure out the stat correlations if we wanted to do a resonant search, Idea is to fill Bootstraps for o(1000) pseudo experiments and see how events migrate. For a given Mll, sample from the resulting resolution function. Andy working on this. Themore detailed interference study has its own page [[2019:groups:tools:dilep|here]].