Abstract
Based on the jet image approach, which treats the energy deposition in each calorimeter cell as the pixel intensity, the Convolutional neural network (CNN) method has been found to achieve a sizable improvement in jet tagging compared to the traditional jet substructure analysis. In this work, the Mask R-CNN framework is adopted to reconstruct Higgs jets in collider-like events, with the effects of pileup contamination taken into account. This automatic jet reconstruction method achieves higher efficiency of Higgs jet detection and higher accuracy of Higgs boson four-momentum reconstruction than traditional jet clustering and jet substructure tagging methods. Moreover, the Mask R-CNN trained on events containing a single Higgs jet is capable of detecting one or more Higgs jets in events of several different processes, without apparent degradation in reconstruction efficiency and accuracy. The outputs of the network also serve as new handles for the toverline{t} background suppression, complementing to traditional jet substructure variables.
Highlights
JHEP04(2021)156 or from underlying events;2 (2) The cone-size is an a-priori parameter in jet clustering
Based on the jet image approach, which treats the energy deposition in each calorimeter cell as the pixel intensity, the Convolutional neural network (CNN) method has been found to achieve a sizable improvement in jet tagging compared to the traditional jet substructure analysis
From the receiver operating characteristic (ROC), we find that the background rejection for a given signal selection efficiency can be improved by an order of magnitude once the Mask region-based CNN (R-CNN) score is included in the Boosted Decision Tree (BDT) analysis
Summary
Event samples of the H+jets process with flat Higgs transverse momentum (pHT ) distribution are generated by MG5_aMC@NLO [54] for training and validating our network. The normalization which is obtained from the event sample with pHT ∈ [200 GeV, 600 GeV] is used This procedure is optimized based on Higgs jets of certain energy, it should be applicable to other objects to some extent, e.g., hadronically decaying vector bosons and top quarks, since pT distributions of jet constituents depend largely on the energy scales of parton shower and hadronization rather than identities of the particles which initiate the jets. We find the changes of pT and m distributions are noticeable when the enlargement is one (two) pixel(s) for convex hull (radial) mask, while the changes are much milder for further enlargement
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