Nome |
# |
Distillation and stripping pilot plants for the JUNO neutrino detector: Design, operations and reliability, file e309ade3-c895-3969-e053-3a05fe0a2c94
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105
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Expected geoneutrino signal at JUNO, file e309ade3-e53f-3969-e053-3a05fe0a2c94
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51
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Spectroscopy of geoneutrinos from 2056 days of Borexino data, file e309ade0-b74f-3969-e053-3a05fe0a2c94
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47
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Geoneutrinos and reactor antineutrinos at SNO+, file e309ade0-d40c-3969-e053-3a05fe0a2c94
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47
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Feasibility and physics potential of detecting 8B solar neutrinos at JUNO, file e309ade3-6489-3969-e053-3a05fe0a2c94
|
46
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Reference worldwide model for antineutrinos from reactors, file e309ade3-c959-3969-e053-3a05fe0a2c94
|
46
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JUNO physics and detector, file e309ade5-3a70-3969-e053-3a05fe0a2c94
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41
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Charge reconstruction in large-area photomultipliers, file e309ade1-aff6-3969-e053-3a05fe0a2c94
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39
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Neutrino physics with JUNO, file e309ade0-b998-3969-e053-3a05fe0a2c94
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13
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Neutrinos from the Earth: Status and Perspectives, file e309ade0-a340-3969-e053-3a05fe0a2c94
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12
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Feasibility and physics potential of detecting 8B solar neutrinos at JUNO, file e309ade4-5aa1-3969-e053-3a05fe0a2c94
|
12
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GIGJ: A Crustal Gravity Model of the Guangdong Province for Predicting the Geoneutrino Signal at the JUNO Experiment, file e309ade4-15b9-3969-e053-3a05fe0a2c94
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11
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Comprehensive geoneutrino analysis with Borexino, file e309ade2-8d4b-3969-e053-3a05fe0a2c94
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10
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Calibration strategy of the JUNO experiment, file e309ade4-bf62-3969-e053-3a05fe0a2c94
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10
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Analysis strategies for the updated geoneutrino measurement with Borexino, file e309ade2-b399-3969-e053-3a05fe0a2c94
|
9
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Optimization of the JUNO liquid scintillator composition using a Daya Bay antineutrino detector, file e309ade2-ebda-3969-e053-3a05fe0a2c94
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8
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Spectroscopy of geoneutrinos from 2056 days of Borexino data, file e309ade3-ca60-3969-e053-3a05fe0a2c94
|
8
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Radioactivity control strategy for the JUNO detector, file e309ade4-ebb1-3969-e053-3a05fe0a2c94
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8
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Neutrinos from the Sun: experimental results confronted with solar models, file e309ade4-718e-3969-e053-3a05fe0a2c94
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7
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Charge reconstruction in large-area photomultipliers, file e309ade4-8738-3969-e053-3a05fe0a2c94
|
6
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Distillation and stripping pilot plants for the JUNO neutrino detector: Design, operations and reliability, file e309ade4-d501-3969-e053-3a05fe0a2c94
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6
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Nanoseconds Timing System Based on IEEE 1588 FPGA Implementation, file e309ade4-f12f-3969-e053-3a05fe0a2c94
|
6
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Prospects for detecting the diffuse supernova neutrino background with JUNO, file ba8ad118-b8e9-468b-b41f-de18be69641d
|
5
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The design and sensitivity of JUNO’s scintillator radiopurity pre-detector OSIRIS, file e309ade5-37cd-3969-e053-3a05fe0a2c94
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5
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Comprehensive geoneutrino analysis with Borexino, file 40656003-dff0-45fa-8690-eba70a15b2f9
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3
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Linear solar models, file e309ade0-38de-3969-e053-3a05fe0a2c94
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3
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Reference worldwide model for antineutrinos from reactors, file e309ade0-44b2-3969-e053-3a05fe0a2c94
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3
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Measurement of geo-neutrinos from 1353 days of Borexino, file e309ade0-cdad-3969-e053-3a05fe0a2c94
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3
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The 14N(p,gamma)15O reaction, solar neutrinos and the age of the globular clusters, file e309ade1-5f90-3969-e053-3a05fe0a2c94
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3
|
GIGJ: A Crustal Gravity Model of the Guangdong Province for Predicting the Geoneutrino Signal at the JUNO Experiment, file e309ade2-366e-3969-e053-3a05fe0a2c94
|
3
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FPGA Implementation of a NCO based CDR for the JUNO Front-End Electronics, file e309ade4-bf60-3969-e053-3a05fe0a2c94
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3
|
Optimization of the JUNO liquid scintillator composition using a Daya Bay antineutrino detector, file 042d6209-2d41-4936-8ccb-b41d59ef0b30
|
2
|
Sub-percent Precision Measurement of Neutrino Oscillation Parameters with JUNO, file 0f64394c-68be-4213-944a-fe71cad9d10c
|
2
|
Prospects for detecting the diffuse supernova neutrino background with JUNO, file dcb80bc6-2843-4de6-9845-1ef0dd3b103f
|
2
|
Expected geoneutrino signal at JUNO, file e309ade0-44b3-3969-e053-3a05fe0a2c94
|
2
|
null, file e309ade0-4972-3969-e053-3a05fe0a2c94
|
2
|
High significance measurement of the terrestrial neutrino flux with the Borexino detector, file e309ade0-f3f9-3969-e053-3a05fe0a2c94
|
2
|
Nanoseconds Timing System Based on IEEE 1588 FPGA Implementation, file e309ade2-3fc7-3969-e053-3a05fe0a2c94
|
2
|
Embedded readout electronics R&D for the large PMTs in the JUNO experiment, file e309ade2-b26c-3969-e053-3a05fe0a2c94
|
2
|
Search for low-energy neutrinos from astrophysical sources with Borexino, file e309ade4-6e82-3969-e053-3a05fe0a2c94
|
2
|
JUNO physics and detector, file e309ade5-2111-3969-e053-3a05fe0a2c94
|
2
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The JUNO experiment Top Tracker, file 0794f9a6-465c-412f-8449-497985c30fc9
|
1
|
FPGA Implementation of a NCO based CDR for the JUNO Front-End Electronics, file 11b22403-346a-4cd9-9f68-d4d0e29e1165
|
1
|
UNO sensitivity to 7Be, pep, and CNO solar neutrinos, file 49e3226c-fdee-43c2-ade9-5ac39815ece0
|
1
|
JUNO sensitivity to low energy atmospheric neutrino spectra, file d17ec993-a23c-42aa-9bda-aa46a8b6c74e
|
1
|
Chameleon fields and solar physics, file e309ade0-4967-3969-e053-3a05fe0a2c94
|
1
|
null, file e309ade0-4e15-3969-e053-3a05fe0a2c94
|
1
|
Radiogenic contribution to Earth's heat flow through geo-neutrinos, file e309ade0-99e5-3969-e053-3a05fe0a2c94
|
1
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Search for low-energy neutrinos from astrophysical sources with Borexino, file e309ade2-afd7-3969-e053-3a05fe0a2c94
|
1
|
Distillation and stripping pilot plants for the JUNO neutrino detector: Design, operations and reliability, file e309ade3-ca29-3969-e053-3a05fe0a2c94
|
1
|
JUNO sensitivity to low energy atmospheric neutrino spectra, file e309ade4-ae18-3969-e053-3a05fe0a2c94
|
1
|
Damping signatures at JUNO, a medium-baseline reactor neutrino oscillation experiment, file e309ade5-6417-3969-e053-3a05fe0a2c94
|
1
|
Totale |
610 |