Papers
| Author | Title | Reference | Link |
|---|---|---|---|
| S. Bertelli et al. | Design and performance of the front-end electronics of the charged particle detectors of PADME experiment | JINST 19 (2024) 01, C01051 |  |
| S. Bertelli et al. | Beam diagnostics with silicon pixel detector array at PADME experiment | JINST 19 (2024) 01, C01016 | |
| E. Long | Status and Prospects of PADME | Proceedings of the 57th Rencontres de Moriond 2023 Electroweak Interactions and Unified Theories, arXiv:2305.08684 [hep-ex] | |
| V. Kozhuharov | The PADME experiment at LNF-INFN | PoS BPU11 (2023) 078 | |
| P. Gianotti | The study of the X17 anomaly with the PADME experiment | J.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. Oceano | First results from PADME experiment - getting ready for dark sector studies | Proceedings of the 56th Rencontres de Moriond 2022 Electroweak Interactions and Unified Theories, DOI: https://doi.org/10.58027/9qzt-x624 | |
| Sv. Ivanov | Profile Characterization of the PADME Experiment’s Positron Beam Using a TimePix3 Sensor Array | Proceedings of the National Forum on Contemporary Space Research 2022, Sofia, 10 - 12 Nov. 2022 | |
| P. Valente | Dark sector studies with the PADME experiment | PoS CHEP2022 (2022) 145 | |
| K. Dimitrova | Using Artificial Intelligence in the Reconstruction of Signals from the PADME Electromagnetic Calorimeter | Instruments 2022, 6, 46. https://doi.org/10.3390/instruments6040046 | |
| P. Albicocco et al. | Commissioning of the PADME experiment with a positron beam | JINST 17 (2022) 08, P08032, ArXiv:2205.03430 [physics.ins-det] | |
| F. Bossi et al. | The PADME beam line Monte Carlo simulation | JHEP 09 (2022) 233, ArXiv:2204.05616 [hep-ex] | |
| S. Spagnolo | Search for a Dark Photon with the PADME experiment | PoS EPS-HEP2021 (2022) 186 | |
| P. Gianotti | The PADME scientific program | PoS PANIC2021 (2022) 043 | |
| F. Pinna | The PADME detector | PoS PANIC2021 (2022) 079 | |
| A. P. Caricato et al. | The physics program of the PADME experiment | Phys. Scripta 97 no.2 (2022) 024003 | |
| G. Georgiev | Offline noise calibration of the CAEN V1742 ADCs at the PADME experiment | J.Phys.Conf.Ser. 2255 (2021) 012008 | |
| I. Oceano | Searching for Dark Matter with the PADME experiment | J.Phys.Conf.Ser. 2156 (2021) 012058 | |
| R. Simeonov | The PADME Experiment and Dark Matter Searches | Bulgarian Jou. Phys. vo. 47 (2021) 62-69 | |
| D. Domenici | The PADME experiment at LNF | JINST 15 (2020) no.10, C10015 | |
| P. Albicocco et al. | Characterisation and performance of the PADME electromagnetic calorimeter | JINST 15 (2020) no.10, T10003 | |
| I. Oceano | The performance of the diamond active target of the PADME experiment | JINST 15 (2020) C04045 | |
| G. Piperno | First results on the performance of the PADME electromagnetic calorimeter | JINST 15 (2020) C05008 | |
| F. Oliva | Performance of the charged particle detectors of the PADME experiment | JINST 15 (2020) C06017 | |
| G. Piperno | The PADME electromagnetic calorimeter | J.Phys.Conf.Ser. 1162 (2019) 012031 | |
| A. Frankenthal | Searching for Dark Photons with PADME | Proceedings 2019 Meeting of the Division of Particles and Fields of the American Physical Society (DPF2019) | |
| F. Oliva | Operation and performance of the active target of PADME | Nucl.Instrum.Meth. A 162354 | |
| F. Giacchino | A Light Dark Matter portal: the Axion-like Particle | Frascati Physics Series 69 (2019) 205 | |
| C. Taruggi | The PADME experiment at INFN LNF | Frascati Physics Series 69 (2019) 188 | |
| F. Oliva | Searching for a dark photon with PADME at LNF: status of the active diamond target | Nucl.Instrum.Meth. A936 (2019) 697-698 | |
| F. Oliva | The charged particle veto system of the PADME experiment | Nucl.Instrum.Meth. A936 (2019) 259-260 | |
| P. Gianotti | The investigation on the dark sector at the PADME experiment | Nucl.Instrum.Meth. A936 (2019) 266-267 | |
| P. Gianotti | The calorimeters of the PADME experiment | Nucl.Instrum.Meth. A936 (2019) 150-151 | |
| V. Kozhuharov | The PADME experiment at LNF-INFN | AIP Conf.Proc. 2075 (2019) no.1, 080008 | |
| S. Ivanov, V. Kozhuharov | The charged particle veto system of the PADME experiment | AIP Conf.Proc. 2075 (2019) no.1, 080005 | |
| F. Ferrarotto | The Investigation on the Dark Sector at the PADME Experiment | Universe 5 (2019) no.2, 59 | |
| A. Frankenthal et al. | Characterization and performance of PADMEÛªs Cherenkov-based small-angle calorimeter | Nucl.Instrum.Meth. A919 (2019) 89-97 | |
| G. Piperno | Dark Photon Search with the PADME Experiment | Nuovo Cim. C41 (2018) 50 | |
| M. Raggi | Status of the PADME experiment and review of dark photon searches | EPJ Web Conf. 179 (2018) 01020 | |
| G. Piperno | Dark Photon Search with PADME at LNF | Int.J.Mod.Phys.Conf.Ser. 46 (2018) 1860047 | |
| G. Georgiev, V. Kozhuharov, L. Tsankov. | The PADME Tracking System | Rad. & App. 1 (3) 183 (2018), 183 | |
| F. Ferrarotto | The PADME calorimeters for missing mass dark photon searches | JINST 13 (2018) no.03, C03044 | |
| P. Gianotti | The PADME Detector | EPJ Web Conf. 170 (2018) 01007 | |
| P. Gianotti | Status and prospects for the PADME experiment at LNF | EPJ Web Conf. 166 (2018) 00009 | |
| S. Spagnolo | Status of the PADME experiment | J.Phys.Conf.Ser. 1137 (2018) no.1, 012043 | |
| C. Taruggi | The PADME calorimeter: Performance of the prototype | Nuovo Cim. C41 (2018) no.1-2, 92 | |
| F. Ferrarotto et al. | Performance of the Prototype of the Charged-Particle Veto System of the PADME Experiment | IEEE Trans. on Nucl.Sci. 65 (8) (2018), 2029 | |
| V. Scherini | Search for the Dark Photon with the PADME Experiment at LNF | Proceedings of the 13th Patras Workshop on Axions, WIMPs and WISPs | |
| E. Leonardi, G. Piperno, M. Raggi | Evaluation of clustering algorithms at the < 1 GeV energy scale for the electromagnetic calorimeter of the PADME experiment | J.Phys.Conf.Ser. 898 (2017) no.7, 072019 | |
| E. Leonardi, V. Kozhuharov, M. Raggi, P. Valente | GEANT4-based full simulation of the PADME experiment at the DAë_NE BTF | J.Phys.Conf.Ser. 898 (2017) no.4, 042025 | |
| E. Leonardi, M. Raggi, P. Valente | Development and test of a DRS4-based DAQ system for the PADME experiment at the DAë_NE BTF | J.Phys.Conf.Ser. 898 (2017) no.3, 032024 | |
| P. Gianotti | Search for the gauge boson of a secluded sector with the PADME experiment at LNF | PoS EPS-HEP2017 (2017) 064 | |
| R. Assiro et al. | Performance of the diamond active target prototype for the PADME experiment at the DAFNE BTF | Nucl.Instrum.Meth. A898 (2018) 105-110 | |
| M. Raggi | The PADME experiment at LNF | EPJ Web Conf. 142 (2017) 01026 | |
| G. Chiodini | A diamond active target for the PADME experiment | JINST 12 (2017) no.02, C02036 | |
| V. Kozhuharov | PADME: Searching for dark mediator at the Frascati BTF | Nuovo Cim. C40 (2017) no.5, 192 | |
| F. Oliva et al. | Beam test results of PADME full carbon active diamond target | Nuovo Cim. C40 (2017) no.1, 81 | |
| S. Fiore | The PADME experiment at INFN LNF | J.Phys.Conf.Ser. 770 (2016) no.1, 012039 | |
| M. Raggi et al. | Performance of the PADME Calorimeter prototype at the DAë_NE BTF | Nucl.Instrum.Meth. A862 (2017) 31-35 | |
| G. Piperno | The PADME experiment | Nuovo Cim. C40 (2017) no.1, 29 | |
| P. Valente | The PADME experiment at DAë_NE LINAC | PoS ICHEP2016 (2016) 204 | |
| G. Piperno | The PADME experiment at Laboratori Nazionali di Frascati | Frascati Phys.Ser. 63 (2016) 19-24 | |
| M. Raggi, V. Kozhuharov, P. Valente | The PADME experiment at LNF | EPJ Web Conf. 96 (2015) 01025 | |
| M. Raggi, V. Kozhuharov | Results and perspectives in dark photon physics | Riv.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 experiments | Frascati Phys.Ser. 60 (2015) 1-291 | |
| M. Raggi, V. Kozhuharov | Proposal to search for a dark photon in e+ on target collisions at DAë_NE linac | Adv.HighEn.Phys. 2014 (2014) 959802 |