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Yeardown Type Title Conference Journal
2024ArticleOperation and performance of the MEG II detector Eur. Phys. J. C

arXiv:2310.11902

Attachment 1: MEGIIDetectorPaperEPJC84-2024_1.pdf
MEGIIDetectorPaperEPJC84-2024_1.pdf MEGIIDetectorPaperEPJC84-2024_1.pdf MEGIIDetectorPaperEPJC84-2024_1.pdf MEGIIDetectorPaperEPJC84-2024_1.pdf MEGIIDetectorPaperEPJC84-2024_1.pdf MEGIIDetectorPaperEPJC84-2024_1.pdf MEGIIDetectorPaperEPJC84-2024_1.pdf MEGIIDetectorPaperEPJC84-2024_1.pdf
2024ArticlePrototype study of 0.1% X0 and MHz/cm2 tolerant Resistive Plate Chamber with Diamond-Like Carbon electrodes Nucl. Instrum. Meth. A
Attachment 1: Prototype_study_of_0.1_percent_X0_and_MHz_cm2_tolerant_Resistive_Plate_Chamber_with_Diamond-Like_Carbon_electrodes.pdf
Prototype_study_of_0.1_percent_X0_and_MHz_cm2_tolerant_Resistive_Plate_Chamber_with_Diamond-Like_Carbon_electrodes.pdf Prototype_study_of_0.1_percent_X0_and_MHz_cm2_tolerant_Resistive_Plate_Chamber_with_Diamond-Like_Carbon_electrodes.pdf Prototype_study_of_0.1_percent_X0_and_MHz_cm2_tolerant_Resistive_Plate_Chamber_with_Diamond-Like_Carbon_electrodes.pdf Prototype_study_of_0.1_percent_X0_and_MHz_cm2_tolerant_Resistive_Plate_Chamber_with_Diamond-Like_Carbon_electrodes.pdf Prototype_study_of_0.1_percent_X0_and_MHz_cm2_tolerant_Resistive_Plate_Chamber_with_Diamond-Like_Carbon_electrodes.pdf Prototype_study_of_0.1_percent_X0_and_MHz_cm2_tolerant_Resistive_Plate_Chamber_with_Diamond-Like_Carbon_electrodes.pdf Prototype_study_of_0.1_percent_X0_and_MHz_cm2_tolerant_Resistive_Plate_Chamber_with_Diamond-Like_Carbon_electrodes.pdf
2024ArticleA search for µ+→e+γ with the first dataset of the MEG II experiment Eur. Phys. J. C

arXiv:2310.12614

 

Erratum: Eur. Phys. J. C 84 (2024) 1042. doi:10.1140/epjc/s10052-024-13352-x.

Attachment 1: s10052-024-12416-2.pdf
s10052-024-12416-2.pdf s10052-024-12416-2.pdf s10052-024-12416-2.pdf s10052-024-12416-2.pdf s10052-024-12416-2.pdf s10052-024-12416-2.pdf s10052-024-12416-2.pdf s10052-024-12416-2.pdf
Attachment 2: s10052-024-13352-x.pdf
s10052-024-13352-x.pdf s10052-024-13352-x.pdf
2024ArticlePerformances of a new generation tracking detector: the MEG II cylindrical drift chamber Eur. Phys. J. C
Attachment 1: s10052-024-12711-y.pdf
s10052-024-12711-y.pdf s10052-024-12711-y.pdf s10052-024-12711-y.pdf s10052-024-12711-y.pdf s10052-024-12711-y.pdf s10052-024-12711-y.pdf s10052-024-12711-y.pdf s10052-024-12711-y.pdf
2023Conference with proceedingsThe trigger system for the MEG II experiment15th Pisa Meeting on Advanced Detectors 2022Nucl. Instr. and Methods A
Attachment 1: Francesconi-2023-The_trigger_system_for_the-(accepted_version).pdf
Francesconi-2023-The_trigger_system_for_the-(accepted_version).pdf Francesconi-2023-The_trigger_system_for_the-(accepted_version).pdf Francesconi-2023-The_trigger_system_for_the-(accepted_version).pdf Francesconi-2023-The_trigger_system_for_the-(accepted_version).pdf Francesconi-2023-The_trigger_system_for_the-(accepted_version).pdf
2023ArticleStudy on degradation of VUV-sensitivity of MPPC for liquid xenon scintillation detector by radiation damage in MEG II experiment Nucl. Instrum. Meth. A

arXiv:2211.09882

Attachment 1: 1-s2.0-S0168900223003558-main.pdf
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2023ArticleNovel X-ray scanning technique for in-situ alignment of photo-detectors in the MEGII calorimeter Nucl. Instrum. Meth. A
Attachment 1: 1-s2.0-S0168900222011937-main.pdf
1-s2.0-S0168900222011937-main.pdf 1-s2.0-S0168900222011937-main.pdf 1-s2.0-S0168900222011937-main.pdf 1-s2.0-S0168900222011937-main.pdf 1-s2.0-S0168900222011937-main.pdf 1-s2.0-S0168900222011937-main.pdf 1-s2.0-S0168900222011937-main.pdf 1-s2.0-S0168900222011937-main.pdf
2023Conference with proceedingsRadiation hardness studies of RPC based on diamond-like carbon electrodes for MEG II experiment3rd International Conference on Detector Stability and Aging Phenomena in Gaseous DetectorsNucl. Instrum. Meth. A
2022Conference with proceedingsOperational results with the pixelated Time Detector of MEG II experiment during the first year of physics data taking15th Pisa Meeting on Advanced Detectors 2022Nuclear Inst. and Methods in Physics Research, A
Attachment 1: Elba-pTC-NIMA-2022.pdf
Elba-pTC-NIMA-2022.pdf Elba-pTC-NIMA-2022.pdf Elba-pTC-NIMA-2022.pdf
2022Conference with proceedingsThe liquid xenon detector for the MEG II experiment to detect 52.8 MeV γ with large area VUV-sensitive MPPCs9th Conference on New Developments in Photodetection (NDIP20)Nucl. Instrum. Meth. A
2022Conference with proceedingsCommissioning of liquid xenon gamma-ray detector for MEG II experiment15th Pisa Meeting on Advanced Detectors (PM2021)Nucl. Instrum. Meth. A
2022Conference with proceedingsDevelopment of ultra-low mass and high-rate capable RPC based on Diamond-Like Carbon electrodes for MEG II experimentXVI Workshop on Resistive Plate Chambers and Related Detectors (RPC2022)Nucl. Instrum. Meth. A
Attachment 1: Development_of_ultra-low_mass_and_high-rate_capable_RPC_based_on_Diamond-Like_Carbon_electrodes_for_MEG_II_experiment.pdf
Development_of_ultra-low_mass_and_high-rate_capable_RPC_based_on_Diamond-Like_Carbon_electrodes_for_MEG_II_experiment.pdf Development_of_ultra-low_mass_and_high-rate_capable_RPC_based_on_Diamond-Like_Carbon_electrodes_for_MEG_II_experiment.pdf Development_of_ultra-low_mass_and_high-rate_capable_RPC_based_on_Diamond-Like_Carbon_electrodes_for_MEG_II_experiment.pdf Development_of_ultra-low_mass_and_high-rate_capable_RPC_based_on_Diamond-Like_Carbon_electrodes_for_MEG_II_experiment.pdf
Attachment 2: yamamoto_rpc2022.pdf
yamamoto_rpc2022.pdf yamamoto_rpc2022.pdf yamamoto_rpc2022.pdf yamamoto_rpc2022.pdf yamamoto_rpc2022.pdf yamamoto_rpc2022.pdf yamamoto_rpc2022.pdf yamamoto_rpc2022.pdf
2021ArticleTiming resolution of a plastic scintillator counter read out by radiation damaged SiPMs connected in series Nucl. Instrum. Methods A

https://arxiv.org/abs/2005.05027

2021ArticleThe Search for μ→eγ with 10^-14 Sensitivity: The Upgrade of the MEG Experiment Symmetry
Published in Symmetry as part of the Special Issue Upgrades in High Energy Physics Experiments.
https://doi.org/10.3390/sym13091591
arXiv: 2107.10767
Attachment 1: symmetry-13-01591-v3.pdf
symmetry-13-01591-v3.pdf symmetry-13-01591-v3.pdf symmetry-13-01591-v3.pdf symmetry-13-01591-v3.pdf symmetry-13-01591-v3.pdf symmetry-13-01591-v3.pdf symmetry-13-01591-v3.pdf symmetry-13-01591-v3.pdf
2021ArticleDetailed analysis of chemical corrosion of ultra-thin wires used in drift chamber detectors JINST
2021Conference with proceedingsDevelopment of high-rate capable and ultra-low mass Resistive Plate Chamber with Diamond-Like CarbonTechnology and Instrumentation in Particle Physics conference (TIPP2021)J. Phys. Conf. Ser.
Attachment 1: Oya_2022_J._Phys.%3A_Conf._Ser._2374_012143.pdf
Oya_2022_J._Phys.%3A_Conf._Ser._2374_012143.pdf Oya_2022_J._Phys.%3A_Conf._Ser._2374_012143.pdf Oya_2022_J._Phys.%3A_Conf._Ser._2374_012143.pdf Oya_2022_J._Phys.%3A_Conf._Ser._2374_012143.pdf Oya_2022_J._Phys.%3A_Conf._Ser._2374_012143.pdf Oya_2022_J._Phys.%3A_Conf._Ser._2374_012143.pdf
2020ArticleA quasi-non-invasive ultra-thin luminophore foil detector system for secondary beam monitoring Nucl. Instrum. Methods A
2020ArticleSearch for lepton flavour violating muon decay mediated by a new light particle in the MEG experiment Eur. Phys. J. C

arXiv:2005.00339

Attachment 1: Baldini_et_al._-_2020_-_Search_for_lepton_flavour_violating_muon_decay_mediated_by_a_new_light_particle_in_the_MEG_experiment.pdf
Baldini_et_al._-_2020_-_Search_for_lepton_flavour_violating_muon_decay_mediated_by_a_new_light_particle_in_the_MEG_experiment.pdf Baldini_et_al._-_2020_-_Search_for_lepton_flavour_violating_muon_decay_mediated_by_a_new_light_particle_in_the_MEG_experiment.pdf Baldini_et_al._-_2020_-_Search_for_lepton_flavour_violating_muon_decay_mediated_by_a_new_light_particle_in_the_MEG_experiment.pdf Baldini_et_al._-_2020_-_Search_for_lepton_flavour_violating_muon_decay_mediated_by_a_new_light_particle_in_the_MEG_experiment.pdf Baldini_et_al._-_2020_-_Search_for_lepton_flavour_violating_muon_decay_mediated_by_a_new_light_particle_in_the_MEG_experiment.pdf Baldini_et_al._-_2020_-_Search_for_lepton_flavour_violating_muon_decay_mediated_by_a_new_light_particle_in_the_MEG_experiment.pdf Baldini_et_al._-_2020_-_Search_for_lepton_flavour_violating_muon_decay_mediated_by_a_new_light_particle_in_the_MEG_experiment.pdf Baldini_et_al._-_2020_-_Search_for_lepton_flavour_violating_muon_decay_mediated_by_a_new_light_particle_in_the_MEG_experiment.pdf
2019ArticleLarge-area MPPC with enhanced VUV sensitivity for liquid xenon scintillation detector Nucl. Instrum. Methods A
Attachment 1: 1-s2.0-S0168900219301858-main.pdf
1-s2.0-S0168900219301858-main.pdf 1-s2.0-S0168900219301858-main.pdf 1-s2.0-S0168900219301858-main.pdf 1-s2.0-S0168900219301858-main.pdf 1-s2.0-S0168900219301858-main.pdf 1-s2.0-S0168900219301858-main.pdf 1-s2.0-S0168900219301858-main.pdf 1-s2.0-S0168900219301858-main.pdf
2019ArticleThe laser-based time calibration system for the MEG II pixelated Timing Counter Nucl. Instrum. Methods A

http://arxiv.org/abs/1907.00911

Attachment 1: Boca_et_al._-_2019_-_The_laser-based_time_calibration_system_for_the_MEG_II_pixelated_Timing_Counter.pdf
Boca_et_al._-_2019_-_The_laser-based_time_calibration_system_for_the_MEG_II_pixelated_Timing_Counter.pdf Boca_et_al._-_2019_-_The_laser-based_time_calibration_system_for_the_MEG_II_pixelated_Timing_Counter.pdf Boca_et_al._-_2019_-_The_laser-based_time_calibration_system_for_the_MEG_II_pixelated_Timing_Counter.pdf Boca_et_al._-_2019_-_The_laser-based_time_calibration_system_for_the_MEG_II_pixelated_Timing_Counter.pdf Boca_et_al._-_2019_-_The_laser-based_time_calibration_system_for_the_MEG_II_pixelated_Timing_Counter.pdf Boca_et_al._-_2019_-_The_laser-based_time_calibration_system_for_the_MEG_II_pixelated_Timing_Counter.pdf Boca_et_al._-_2019_-_The_laser-based_time_calibration_system_for_the_MEG_II_pixelated_Timing_Counter.pdf Boca_et_al._-_2019_-_The_laser-based_time_calibration_system_for_the_MEG_II_pixelated_Timing_Counter.pdf
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