The GENIE Generator product is an advanced physics simulation used by nearly all modern neutrino experiments and it plays a key role in the exploitation of neutrino data. This product implements a modern software framework for MC event generators and includes state-of-the-art physics modules for neutrino or charged-lepton interactions with nucleons or nuclei, and for the simulation of nucleon decay, n-bar oscillation and boosted dark matter. It captures the latest results of the GENIE global analysis of neutrino scattering data and includes several tunes that were produced using the proprietary Comparisons and Tuning products. The GENIE physics model is universal and comprehensive: It handles all neutrinos and targets, and all processes relevant from MeV to PeV energy scales. The Generator includes several tools (flux drivers, detector geometry navigation drivers, specialized event generation apps, event reweighting engines) to simulate complex experimental setups in full detail and to support generator-related analysis tasks.
For more information, visit http://www.genie-mc.org
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(+) Corresponding Author:
Prof. Costas Andreopoulos < c.andreopoulos \at cern.ch >
University of Liverpool, Department of Physics, Oliver Lodge Lab 316, Liverpool L69 7ZE, UK
Past authors:
Copyright (c) 2003-2024, The GENIE Collaboration. For information, visit http://copyright.genie-mc.org
For installation and usage information, as well as information on the GENIE framework, event generator modules and tuning, see the GENIE Physics & User Manual in the public section of the GENIE Document Database: https://genie-docdb.pp.rl.ac.uk/cgi-bin/ShowDocument?docid=2
For a list of public releases and a summary information, see http://releases.genie-mc.org
For a list of model configurations and tunes supported in each release, see http://tunes.genie-mc.org
The naming conventions for releases, model configurations and tunes are outlined in the GENIE web page and in the Physics & User manual.
GENIE welcomes community contributions through its Incubator. An Incubator Project is the unique route for any physics or software development into any of the GENIE suite products (Generator, Comparisons, Tuning). Details on the Incubator Project Phases (Launch, Research and Development, Graduation, Integration and Deployment) can be found in the GENIE Bylaws in the public section of the GENIE Document Database: https://genie-docdb.pp.rl.ac.uk/cgi-bin/ShowDocument?docid=1
If you use GENIE, please always cite the following reference:
@article{Andreopoulos:2009rq, author = "Andreopoulos, C. and others", title = "{The GENIE Neutrino Monte Carlo Generator}", journal = "Nucl. Instrum. Meth.", volume = "A614", year = "2010", pages = "87-104", doi = "10.1016/j.nima.2009.12.009", eprint = "0905.2517", archivePrefix = "arXiv", primaryClass = "hep-ph", reportNumber = "FERMILAB-PUB-09-418-CD", SLACcitation = "%%CITATION = ARXIV:0905.2517;%%" }
If you used any of the standard GENIE applications, built-in flux and geometry drivers, or if you used any of its event reweightng and error propagation tools, please add the following reference:
@article{Andreopoulos:2015wxa, author = "Andreopoulos, Costas and Barry, Christopher and Dytman, Steve and Gallagher, Hugh and Golan, Tomasz and Hatcher, Robert and Perdue, Gabriel and Yarba, Julia", title = "{The GENIE Neutrino Monte Carlo Generator: Physics and User Manual}", year = "2015", eprint = "1510.05494", archivePrefix = "arXiv", primaryClass = "hep-ph", reportNumber = "FERMILAB-FN-1004-CD", SLACcitation = "%%CITATION = ARXIV:1510.05494;%%" }
Finally, if you used any of the new model configurations and tunes provided in the GENIE v3* series, please consider adding any of the following references is relevant:
@article{GENIE:2021npt, author = "Alvarez-Ruso, Luis and others", collaboration = "GENIE", title = "{Recent highlights from GENIE v3}", eprint = "2106.09381", archivePrefix = "arXiv", primaryClass = "hep-ph", reportNumber = "FERMILAB-PUB-21-266-SCD-T", doi = "10.1140/epjs/s11734-021-00295-7", journal = "Eur. Phys. J. ST", volume = "230", number = "24", pages = "4449--4467", year = "2021" }
@article{GENIE:2021zuu, author = "Tena-Vidal, J\'ulia and others", collaboration = "GENIE", title = "{Neutrino-nucleon cross-section model tuning in GENIE v3}", eprint = "2104.09179", archivePrefix = "arXiv", primaryClass = "hep-ph", reportNumber = "FERMILAB-PUB-20-531-SCD-T", doi = "10.1103/PhysRevD.104.072009", journal = "Phys. Rev. D", volume = "104", number = "7", pages = "072009", year = "2021" }
@article{GENIE:2021wox, author = "Tena-Vidal, J\'ulia and others", collaboration = "GENIE", title = "{Hadronization model tuning in genie v3}", eprint = "2106.05884", archivePrefix = "arXiv", primaryClass = "hep-ph", reportNumber = "FERMILAB-PUB-21-024-QIS-SCD-T", doi = "10.1103/PhysRevD.105.012009", journal = "Phys. Rev. D", volume = "105", number = "1", pages = "012009", year = "2022" }
@article{GENIE:2022qrc, author = "Tena-Vidal, Julia and others", collaboration = "GENIE", title = "{Neutrino-nucleus CC0$\pi$ cross-section tuning in GENIE v3}", eprint = "2206.11050", archivePrefix = "arXiv", primaryClass = "hep-ph", reportNumber = "FERMILAB-PUB-22-296-ND-QIS-SCD", doi = "10.1103/PhysRevD.106.112001", journal = "Phys. Rev. D", volume = "106", number = "11", pages = "112001", year = "2022" }
Please notice that the GENIE authors endorse the MCNET guidelines for fair academic use which can be found in http://www.montecarlonet.org/GUIDELINES. We invite users to consider which GENIE components are important for a particular analysis and cite them, in addition to the main references. A list of such references in maintained in the official GENIE web page.