LNF

Papers

Papers

 

AuthorTitleReferenceLink
S. Bertelli et al.Design and performance of the front-end electronics of the charged particle detectors of PADME experimentJINST 19 (2024) 01, C01051
S. Bertelli et al.Beam diagnostics with silicon pixel detector array at PADME experimentJINST 19 (2024) 01, C01016
E. LongStatus and Prospects of PADMEProceedings of the 57th Rencontres de Moriond 2023 Electroweak Interactions and Unified Theories, arXiv:2305.08684 [hep-ex]
V. KozhuharovThe PADME experiment at LNF-INFNPoS BPU11 (2023) 078
P. GianottiThe study of the X17 anomaly with the PADME experimentJ.Phys.Conf.Ser. 2586 (2023) 01214
F. Bossi et al.Cross-section measurement of two-photon in-flight annihilation of positrons
at √s = 20 MeV with the PADME detector
Phys. Rev. D 107 (2023) 012008
I. OceanoFirst results from PADME experiment - getting ready for dark sector studiesProceedings of the 56th Rencontres de Moriond 2022 Electroweak Interactions and Unified Theories, DOI: https://doi.org/10.58027/9qzt-x624
Sv. IvanovProfile Characterization of the PADME Experiment’s Positron Beam Using a TimePix3 Sensor ArrayProceedings of the National Forum on Contemporary Space Research 2022, Sofia, 10 - 12 Nov. 2022
P. ValenteDark sector studies with the PADME experimentPoS CHEP2022 (2022) 145
K. DimitrovaUsing Artificial Intelligence in the Reconstruction of Signals from the PADME Electromagnetic CalorimeterInstruments 2022, 6, 46. https://doi.org/10.3390/instruments6040046
P. Albicocco et al.Commissioning of the PADME experiment with a positron beamJINST 17 (2022) 08, P08032, ArXiv:2205.03430 [physics.ins-det]
F. Bossi et al.The PADME beam line Monte Carlo simulationJHEP 09 (2022) 233, ArXiv:2204.05616 [hep-ex]
S. SpagnoloSearch for a Dark Photon with the PADME experimentPoS EPS-HEP2021 (2022) 186
P. GianottiThe PADME scientific programPoS PANIC2021 (2022) 043
F. PinnaThe PADME detectorPoS PANIC2021 (2022) 079
A. P. Caricato et al.The physics program of the PADME experimentPhys. Scripta 97 no.2 (2022) 024003
G. GeorgievOffline noise calibration of the CAEN V1742 ADCs at the PADME experimentJ.Phys.Conf.Ser. 2255 (2021) 012008
I. OceanoSearching for Dark Matter with the PADME experimentJ.Phys.Conf.Ser. 2156 (2021) 012058
R. SimeonovThe PADME Experiment and Dark Matter SearchesBulgarian Jou. Phys. vo. 47 (2021) 62-69
D. DomeniciThe PADME experiment at LNFJINST 15 (2020) no.10, C10015
P. Albicocco et al.Characterisation and performance of the PADME electromagnetic calorimeterJINST 15 (2020) no.10, T10003
I. OceanoThe performance of the diamond active target of the PADME experimentJINST 15 (2020) C04045
G. PipernoFirst results on the performance of the PADME electromagnetic calorimeterJINST 15 (2020) C05008
F. OlivaPerformance of the charged particle detectors of the PADME experimentJINST 15 (2020) C06017
G. PipernoThe PADME electromagnetic calorimeterJ.Phys.Conf.Ser. 1162 (2019) 012031
A. FrankenthalSearching for Dark Photons with PADMEProceedings 2019 Meeting of the Division of Particles and Fields of the American Physical Society (DPF2019)
F. OlivaOperation and performance of the active target of PADMENucl.Instrum.Meth. A 162354
F. GiacchinoA Light Dark Matter portal: the Axion-like ParticleFrascati Physics Series 69 (2019) 205
C. TaruggiThe PADME experiment at INFN LNFFrascati Physics Series 69 (2019) 188
F. OlivaSearching for a dark photon with PADME at LNF: status of the active diamond targetNucl.Instrum.Meth. A936 (2019) 697-698
F. OlivaThe charged particle veto system of the PADME experimentNucl.Instrum.Meth. A936 (2019) 259-260
P. GianottiThe investigation on the dark sector at the PADME experimentNucl.Instrum.Meth. A936 (2019) 266-267
P. GianottiThe calorimeters of the PADME experimentNucl.Instrum.Meth. A936 (2019) 150-151
V. KozhuharovThe PADME experiment at LNF-INFNAIP Conf.Proc. 2075 (2019) no.1, 080008
S. Ivanov, V. KozhuharovThe charged particle veto system of the PADME experimentAIP Conf.Proc. 2075 (2019) no.1, 080005
F. FerrarottoThe Investigation on the Dark Sector at the PADME ExperimentUniverse 5 (2019) no.2, 59
A. Frankenthal et al.Characterization and performance of PADME‰Ûªs Cherenkov-based small-angle calorimeterNucl.Instrum.Meth. A919 (2019) 89-97
G. PipernoDark Photon Search with the PADME ExperimentNuovo Cim. C41 (2018) 50
M. RaggiStatus of the PADME experiment and review of dark photon searchesEPJ Web Conf. 179 (2018) 01020
G. PipernoDark Photon Search with PADME at LNFInt.J.Mod.Phys.Conf.Ser. 46 (2018) 1860047
G. Georgiev, V. Kozhuharov, L. Tsankov.The PADME Tracking SystemRad. & App. 1 (3) 183 (2018), 183
F. FerrarottoThe PADME calorimeters for missing mass dark photon searchesJINST 13 (2018) no.03, C03044
P. GianottiThe PADME DetectorEPJ Web Conf. 170 (2018) 01007
P. GianottiStatus and prospects for the PADME experiment at LNFEPJ Web Conf. 166 (2018) 00009
S. SpagnoloStatus of the PADME experimentJ.Phys.Conf.Ser. 1137 (2018) no.1, 012043
C. TaruggiThe PADME calorimeter: Performance of the prototypeNuovo Cim. C41 (2018) no.1-2, 92
F. Ferrarotto et al.Performance of the Prototype of the Charged-Particle Veto System of the PADME ExperimentIEEE Trans. on Nucl.Sci. 65 (8) (2018), 2029
V. ScheriniSearch for the Dark Photon with the PADME Experiment at LNFProceedings of the
13th Patras Workshop
on Axions, WIMPs and WISPs
E. Leonardi, G. Piperno, M. RaggiEvaluation of clustering algorithms at the < 1 GeV energy scale for the electromagnetic calorimeter of the PADME experimentJ.Phys.Conf.Ser. 898 (2017) no.7, 072019
E. Leonardi, V. Kozhuharov, M. Raggi, P. ValenteGEANT4-based full simulation of the PADME experiment at the DAë_NE BTFJ.Phys.Conf.Ser. 898 (2017) no.4, 042025
E. Leonardi, M. Raggi, P. ValenteDevelopment and test of a DRS4-based DAQ system for the PADME experiment at the DAë_NE BTFJ.Phys.Conf.Ser. 898 (2017) no.3, 032024
P. GianottiSearch for the gauge boson of a secluded sector with the PADME experiment at LNFPoS EPS-HEP2017 (2017) 064
R. Assiro et al.Performance of the diamond active target prototype for the PADME experiment at the DAFNE BTFNucl.Instrum.Meth. A898 (2018) 105-110
M. RaggiThe PADME experiment at LNFEPJ Web Conf. 142 (2017) 01026
G. ChiodiniA diamond active target for the PADME experimentJINST 12 (2017) no.02, C02036
V. KozhuharovPADME: Searching for dark mediator at the Frascati BTFNuovo Cim. C40 (2017) no.5, 192
F. Oliva et al.Beam test results of PADME full carbon active diamond targetNuovo Cim. C40 (2017) no.1, 81
S. FioreThe PADME experiment at INFN LNFJ.Phys.Conf.Ser. 770 (2016) no.1, 012039
M. Raggi et al.Performance of the PADME Calorimeter prototype at the DAë_NE BTFNucl.Instrum.Meth. A862 (2017) 31-35
G. PipernoThe PADME experimentNuovo Cim. C40 (2017) no.1, 29
P. ValenteThe PADME experiment at DAë_NE LINACPoS ICHEP2016 (2016) 204
G. PipernoThe PADME experiment at Laboratori Nazionali di FrascatiFrascati Phys.Ser. 63 (2016) 19-24
M. Raggi, V. Kozhuharov, P. ValenteThe PADME experiment at LNFEPJ Web Conf. 96 (2015) 01025
M. Raggi, V. KozhuharovResults and perspectives in dark photon physicsRiv.Nuovo Cim. 38 (2015) 10, 449-505
A. Andreazza et al.What Next: White Paper of CSN1 Proposal for a long term strategy for accelerator based experimentsFrascati Phys.Ser. 60 (2015) 1-291
M. Raggi, V. KozhuharovProposal to search for a dark photon in e+ on target collisions at DAë_NE linac
Adv.HighEn.Phys. 2014 (2014) 959802