Public Collaboration Sub-groups Archive
News Publication List
  List of MEG publications, Page 9 of 9  Not logged in ELOG logo
 Login |  Find |  Help 
 Full | Summary | Threaded | Hide attachments  Show only new entries    175 Entries 
Goto page Previous  1, 2, 3 ... 7, 8, 9   All
Year Type Title Conferencedown Journal
2013ArticleThe MEG detector for µ+→e+γ decay search Eur. Phys. J. C

http://arxiv.org/abs/1303.2348

Attachment 1: Adam_et_al._-_2013_-_The_MEG_detector_for_μ_→e_γ_decay_search(2).pdf
Adam_et_al._-_2013_-_The_MEG_detector_for_μ_→e_γ_decay_search(2).pdf Adam_et_al._-_2013_-_The_MEG_detector_for_μ_→e_γ_decay_search(2).pdf Adam_et_al._-_2013_-_The_MEG_detector_for_μ_→e_γ_decay_search(2).pdf Adam_et_al._-_2013_-_The_MEG_detector_for_μ_→e_γ_decay_search(2).pdf Adam_et_al._-_2013_-_The_MEG_detector_for_μ_→e_γ_decay_search(2).pdf Adam_et_al._-_2013_-_The_MEG_detector_for_μ_→e_γ_decay_search(2).pdf Adam_et_al._-_2013_-_The_MEG_detector_for_μ_→e_γ_decay_search(2).pdf Adam_et_al._-_2013_-_The_MEG_detector_for_μ_→e_γ_decay_search(2).pdf
2018ArticleThe design of the MEG II experiment Eur. Phys. J. C

arXiv:1801.04688

Attachment 1: Baldini_et_al._-_2018_-_The_design_of_the_MEG_II_experiment.pdf
Baldini_et_al._-_2018_-_The_design_of_the_MEG_II_experiment.pdf Baldini_et_al._-_2018_-_The_design_of_the_MEG_II_experiment.pdf Baldini_et_al._-_2018_-_The_design_of_the_MEG_II_experiment.pdf Baldini_et_al._-_2018_-_The_design_of_the_MEG_II_experiment.pdf Baldini_et_al._-_2018_-_The_design_of_the_MEG_II_experiment.pdf Baldini_et_al._-_2018_-_The_design_of_the_MEG_II_experiment.pdf Baldini_et_al._-_2018_-_The_design_of_the_MEG_II_experiment.pdf Baldini_et_al._-_2018_-_The_design_of_the_MEG_II_experiment.pdf
2019ArticleLarge-area MPPC with enhanced VUV sensitivity for liquid xenon scintillation detector Nucl. Instrum. Methods A
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
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
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
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
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

2023ArticleNovel X-ray scanning technique for in-situ alignment of photo-detectors in the MEGII calorimeter Nucl. Instrum. Meth. A
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
Goto page Previous  1, 2, 3 ... 7, 8, 9   All
ELOG V3.1.5-3fb85fa6