Fast simulation tools are highly appreciated in particle physics phenomenology studies, especially in the exploration of the physics potential of future experimental facilities. The Circular Electron Positron Collider is a proposed Higgs and Z factory that can precisely measure the Higgs boson properties and the electroweak precision observables. A fast-simulation toolkit dedicated to the CEPC detector has been developed using Delphes. The comparison shows that this fast simulation tool is highly consistent with the full simulation, on a set of benchmark distributions. Therefore, we recommend this fast simulation toolkit for CEPC phenomenological investigations
Delphes is a framework for the fast simulation of a generic collider experiment. In this talk, the v...
The Circular Electron-Positron Collider (CEPC) can be operated not only as a Higgs factory but also ...
Generating simulated data samples currently dominates the LHCb CPU usage and this fraction will grow...
The version 3.0 of the Delphes fast-simulation is presented. The goal of Delphes is to allow the sim...
The new version of the DELPHES C++ fast-simulation framework is presented. The tool is written in C+...
With the steady increase in the precision of flavour physics measurements with data from Run 2 of th...
Faster alternatives to a detailed, GEANT4-based simulation are being pursued within the LHCb experim...
It is sometimes difficult to know whether theoretical predictions can be observed in a high energy c...
The CMS collaboration has developed a fast Monte Carlo simulation of the CMS detector with event pro...
Delphes is an open source C++ framework to perform the fast simulation of the response of a multipur...
With the steady increase in the precision of flavour physics measurements with data from Run 2 of th...
The fast simulation of a high energy physics experiment is a tool used by experimentalists to quickl...
A framework for Fast Simulation of particle interactions in the CMS detector has been developed and ...
The CMS collaboration has developed a fast Monte Carlo simulation of the CMS detector with event pro...
The modelling of Cherenkov based detectors is traditionally done using Geant4 toolkit. In this work,...
Delphes is a framework for the fast simulation of a generic collider experiment. In this talk, the v...
The Circular Electron-Positron Collider (CEPC) can be operated not only as a Higgs factory but also ...
Generating simulated data samples currently dominates the LHCb CPU usage and this fraction will grow...
The version 3.0 of the Delphes fast-simulation is presented. The goal of Delphes is to allow the sim...
The new version of the DELPHES C++ fast-simulation framework is presented. The tool is written in C+...
With the steady increase in the precision of flavour physics measurements with data from Run 2 of th...
Faster alternatives to a detailed, GEANT4-based simulation are being pursued within the LHCb experim...
It is sometimes difficult to know whether theoretical predictions can be observed in a high energy c...
The CMS collaboration has developed a fast Monte Carlo simulation of the CMS detector with event pro...
Delphes is an open source C++ framework to perform the fast simulation of the response of a multipur...
With the steady increase in the precision of flavour physics measurements with data from Run 2 of th...
The fast simulation of a high energy physics experiment is a tool used by experimentalists to quickl...
A framework for Fast Simulation of particle interactions in the CMS detector has been developed and ...
The CMS collaboration has developed a fast Monte Carlo simulation of the CMS detector with event pro...
The modelling of Cherenkov based detectors is traditionally done using Geant4 toolkit. In this work,...
Delphes is a framework for the fast simulation of a generic collider experiment. In this talk, the v...
The Circular Electron-Positron Collider (CEPC) can be operated not only as a Higgs factory but also ...
Generating simulated data samples currently dominates the LHCb CPU usage and this fraction will grow...