| Nome |
# |
|
Geo-neutrinos, Mantle Circulation and Silicate Earth, file e309ade0-3677-3969-e053-3a05fe0a2c94
|
114
|
|
Distillation and stripping pilot plants for the JUNO neutrino detector: Design, operations and reliability, file e309ade3-c895-3969-e053-3a05fe0a2c94
|
105
|
|
Accuracy of flight altitude measured with low-cost GNSS, radar and barometer sensors: Implications for airborne radiometric surveys, file e309ade4-1451-3969-e053-3a05fe0a2c94
|
60
|
|
Correlation of gaseous emissions to water stress in tomato and maize crops: From field to laboratory and back, file e309ade4-bf59-3969-e053-3a05fe0a2c94
|
55
|
|
Uranium distribution in the Variscan Basement of Northeastern Sardinia, file e309ade0-b56c-3969-e053-3a05fe0a2c94
|
53
|
|
Expected geoneutrino signal at JUNO, file e309ade3-e53f-3969-e053-3a05fe0a2c94
|
53
|
|
Modelling Soil Water Content in a Tomato Field: Proximal Gamma Ray Spectroscopy and Soil–Crop System Models, file e309ade1-e306-3969-e053-3a05fe0a2c94
|
52
|
|
Spectroscopy of geoneutrinos from 2056 days of Borexino data, file e309ade0-b74f-3969-e053-3a05fe0a2c94
|
47
|
|
Geoneutrinos and reactor antineutrinos at SNO+, file e309ade0-d40c-3969-e053-3a05fe0a2c94
|
47
|
|
Training future engineers to be ghostbusters: Hunting for the spectral environmental radioactivity, file e309ade2-185e-3969-e053-3a05fe0a2c94
|
47
|
|
Feasibility and physics potential of detecting 8B solar neutrinos at JUNO, file e309ade3-6489-3969-e053-3a05fe0a2c94
|
46
|
|
Reference worldwide model for antineutrinos from reactors, file e309ade3-c959-3969-e053-3a05fe0a2c94
|
46
|
|
Geoneutrinos from the rock overburden at SNO+, file e309ade2-83e9-3969-e053-3a05fe0a2c94
|
45
|
|
GIGJ: a crustal gravity model of the Guangdong Province for predicting the geoneutrino signal at the JUNO experiment, file e309ade2-5f42-3969-e053-3a05fe0a2c94
|
41
|
|
JUNO physics and detector, file e309ade5-3a70-3969-e053-3a05fe0a2c94
|
41
|
|
Charge reconstruction in large-area photomultipliers, file e309ade1-aff6-3969-e053-3a05fe0a2c94
|
39
|
|
Soil moisture as a potential variable for tracking and quantifying irrigation: A case study with proximal gamma-ray spectroscopy data, file e309ade4-bf5a-3969-e053-3a05fe0a2c94
|
36
|
|
Modelling Soil Water Content in a Tomato Field: Proximal Gamma Ray Spectroscopy and Soil–Crop System Models, file e309ade2-e0b7-3969-e053-3a05fe0a2c94
|
19
|
|
Biomass water content effect on soil moisture assessment via proximal gamma-ray spectroscopy, file e309ade4-2cab-3969-e053-3a05fe0a2c94
|
18
|
|
Neutrino physics with JUNO, file e309ade0-b998-3969-e053-3a05fe0a2c94
|
14
|
|
Rain rate and radon daughters’ activity, file 56355990-0b73-43a6-8941-5cc402c5d9ea
|
13
|
|
Natural radioactivity mapping via gamma-ray spectroscopy: integrating different techniques and multivariate information, file e309ade1-e308-3969-e053-3a05fe0a2c94
|
13
|
|
Airborne Gamma-Ray Spectroscopy for Modeling Cosmic Radiation and Effective Dose in the Lower Atmosphere, file e309ade3-a0d7-3969-e053-3a05fe0a2c94
|
12
|
|
First intercomparison among laboratories involved in COST Action-TU1301 "NORM4Building": Determination of natural radionuclides in ceramics, file e309ade3-c745-3969-e053-3a05fe0a2c94
|
12
|
|
Feasibility and physics potential of detecting 8B solar neutrinos at JUNO, file e309ade4-5aa1-3969-e053-3a05fe0a2c94
|
12
|
|
Airborne gamma-ray spectrometry for investigating radon vertical profile, file e309ade1-e3ea-3969-e053-3a05fe0a2c94
|
11
|
|
GIGJ: A Crustal Gravity Model of the Guangdong Province for Predicting the Geoneutrino Signal at the JUNO Experiment, file e309ade4-15b9-3969-e053-3a05fe0a2c94
|
11
|
|
Filling the gap between punctual and satellite soil moisture measurements through proximal gamma-ray spectroscopy, file e309ade2-5f38-3969-e053-3a05fe0a2c94
|
10
|
|
Comprehensive geoneutrino analysis with Borexino, file e309ade2-8d4b-3969-e053-3a05fe0a2c94
|
10
|
|
Calibration strategy of the JUNO experiment, file e309ade4-bf62-3969-e053-3a05fe0a2c94
|
10
|
|
The natural radioactivity map of Umbria (Italy): a multipurpose tool for environmental understanding, file e309ade2-5ac9-3969-e053-3a05fe0a2c94
|
9
|
|
Analysis strategies for the updated geoneutrino measurement with Borexino, file e309ade2-b399-3969-e053-3a05fe0a2c94
|
9
|
|
Atmospheric Radon in a marine environment: a novel approach based on airborne gamma-ray spectroscopy, file e309ade1-e452-3969-e053-3a05fe0a2c94
|
8
|
|
Cosmic radiation in the lower atmosphere with airborne gamma-ray spectroscopy, file e309ade1-e454-3969-e053-3a05fe0a2c94
|
8
|
|
Effect of the overburden on the geoneutrino signal at SNO+, file e309ade2-5f44-3969-e053-3a05fe0a2c94
|
8
|
|
Optimization of the JUNO liquid scintillator composition using a Daya Bay antineutrino detector, file e309ade2-ebda-3969-e053-3a05fe0a2c94
|
8
|
|
Spectroscopy of geoneutrinos from 2056 days of Borexino data, file e309ade3-ca60-3969-e053-3a05fe0a2c94
|
8
|
|
Radioactivity control strategy for the JUNO detector, file e309ade4-ebb1-3969-e053-3a05fe0a2c94
|
8
|
|
GIGJ: a crustal model of the Guangdong Province using GOCE gravity data for predicting geoneutrinos, file e309ade1-e149-3969-e053-3a05fe0a2c94
|
6
|
|
Challenges, solutions and benefits of natural radioactivity mapping, file e309ade2-5928-3969-e053-3a05fe0a2c94
|
6
|
|
Radon daughters rain-induced activity, file e309ade2-5f36-3969-e053-3a05fe0a2c94
|
6
|
|
Geoneutrino measurements with Borexino: implications for geoscience, file e309ade2-640a-3969-e053-3a05fe0a2c94
|
6
|
|
Perceiving the Crust in 3-D: A Model Integrating Geological, Geochemical, and Geophysical Data, file e309ade3-a8c1-3969-e053-3a05fe0a2c94
|
6
|
|
Exploring atmospheric radon with airborne gamma-ray spectroscopy, file e309ade3-bf66-3969-e053-3a05fe0a2c94
|
6
|
|
Charge reconstruction in large-area photomultipliers, file e309ade4-8738-3969-e053-3a05fe0a2c94
|
6
|
|
Distillation and stripping pilot plants for the JUNO neutrino detector: Design, operations and reliability, file e309ade4-d501-3969-e053-3a05fe0a2c94
|
6
|
|
Nanoseconds Timing System Based on IEEE 1588 FPGA Implementation, file e309ade4-f12f-3969-e053-3a05fe0a2c94
|
6
|
|
Prospects for detecting the diffuse supernova neutrino background with JUNO, file ba8ad118-b8e9-468b-b41f-de18be69641d
|
5
|
|
A fully automated gamma-ray spectrometer for NORMs characterization, file e309ade1-e145-3969-e053-3a05fe0a2c94
|
5
|
|
Geoneutrinos and geoscience: an intriguing joint-venture, file e309ade5-2339-3969-e053-3a05fe0a2c94
|
5
|
|
The design and sensitivity of JUNO’s scintillator radiopurity pre-detector OSIRIS, file e309ade5-37cd-3969-e053-3a05fe0a2c94
|
5
|
|
Updated reference model for lithospheric heat production and geoneutrino flux, file e309ade1-e3ec-3969-e053-3a05fe0a2c94
|
4
|
|
Investigating the potentialities of Monte Carlo simulation for assessing soil water content via proximal gamma-ray spectroscopy, file e309ade3-ae0b-3969-e053-3a05fe0a2c94
|
4
|
|
Proximal gamma-ray spectroscopy: An effective tool to discern rain from irrigation, file e309ade5-5763-3969-e053-3a05fe0a2c94
|
4
|
|
Comprehensive geoneutrino analysis with Borexino, file 40656003-dff0-45fa-8690-eba70a15b2f9
|
3
|
|
Reference worldwide model for antineutrinos from reactors, file e309ade0-44b2-3969-e053-3a05fe0a2c94
|
3
|
|
Measurement of geo-neutrinos from 1353 days of Borexino, file e309ade0-cdad-3969-e053-3a05fe0a2c94
|
3
|
|
Integrating geological, geochemical and geophysical data and uncertainties into a coherent 3D model, file e309ade1-e14e-3969-e053-3a05fe0a2c94
|
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
|
|
Correlation of gaseous emissions to water stress in tomato and maize crops: From field to laboratory and back, file e309ade2-5924-3969-e053-3a05fe0a2c94
|
3
|
|
FPGA Implementation of a NCO based CDR for the JUNO Front-End Electronics, file e309ade4-bf60-3969-e053-3a05fe0a2c94
|
3
|
|
Neutrino physics with an opaque detector, file e309ade5-1711-3969-e053-3a05fe0a2c94
|
3
|
|
Combining Precision Viticulture Technologies and Economic Indices to Sustainable Water Use Management, file e309ade5-9972-3969-e053-3a05fe0a2c94
|
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
|
|
Geoneutrinos and geoscience: an intriguing joint-venture, file 405a9e7b-3c96-4a89-afa1-7d1cf2af0bd4
|
2
|
|
External effective dose from natural radiation for the Umbria region (Italy), file 95e49dde-3a4b-4319-af8c-0a9f14c5dd6f
|
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
|
|
Calibration of HPGe detectors using certified reference materials of natural origin, file e309ade0-bbbf-3969-e053-3a05fe0a2c94
|
2
|
|
High significance measurement of the terrestrial neutrino flux with the Borexino detector, file e309ade0-f3f9-3969-e053-3a05fe0a2c94
|
2
|
|
Exploring atmospheric radon with airborne gamma-ray spectroscopy, file e309ade1-883c-3969-e053-3a05fe0a2c94
|
2
|
|
Biomass water content effect on soil moisture assessment via proximal gamma-ray spectroscopy, file e309ade1-e450-3969-e053-3a05fe0a2c94
|
2
|
|
Nanoseconds Timing System Based on IEEE 1588 FPGA Implementation, file e309ade2-3fc7-3969-e053-3a05fe0a2c94
|
2
|
|
Rain rate and radon daughters’ activity, file e309ade2-ae83-3969-e053-3a05fe0a2c94
|
2
|
|
Embedded readout electronics R&D for the large PMTs in the JUNO experiment, file e309ade2-b26c-3969-e053-3a05fe0a2c94
|
2
|
|
JUNO physics and detector, file e309ade5-2111-3969-e053-3a05fe0a2c94
|
2
|
|
Towards a refined reference Earth model for geo-neutrinos, file e309ade5-5076-3969-e053-3a05fe0a2c94
|
2
|
|
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
|
|
Radiogenic contribution to Earth's heat flow through geo-neutrinos, file e309ade0-99e5-3969-e053-3a05fe0a2c94
|
1
|
|
null, file e309ade0-afd0-3969-e053-3a05fe0a2c94
|
1
|
|
First intercomparison among laboratories involved in COST Action-TU1301 "NORM4Building": Determination of natural radionuclides in ceramics, file e309ade0-fb87-3969-e053-3a05fe0a2c94
|
1
|
|
Natural radioactivity in chemical fertilizers used in Albania investigated with a fully automated gamma-ray spectrometer., file e309ade0-fb8e-3969-e053-3a05fe0a2c94
|
1
|
|
Airborne Gamma-Ray Spectroscopy for Modeling Cosmic Radiation and Effective Dose in the Lower Atmosphere, file e309ade1-8e9f-3969-e053-3a05fe0a2c94
|
1
|
|
Perceiving the Crust in 3-D: A Model Integrating Geological, Geochemical, and Geophysical Data, file e309ade1-b4a8-3969-e053-3a05fe0a2c94
|
1
|
|
Investigating the potentialities of Monte Carlo simulation for assessing soil water content via proximal gamma-ray spectroscopy, file e309ade1-e304-3969-e053-3a05fe0a2c94
|
1
|
|
Nuclear physics for precision agriculture, file e309ade2-609d-3969-e053-3a05fe0a2c94
|
1
|
|
Soil moisture as a potential variable for tracking and quantifying irrigation: A case study with proximal gamma-ray spectroscopy data, file e309ade2-8f90-3969-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 |
1.319 |