Add to ORKGWe describe a Fast Neutron Imaging Telescope (FNIT) that is sensitive to neutrons in the energy range 3–100 MeV, optimized to study solar neutrons in the innermost heliosphere. The detection principle is based on multiple elastic neutron–proton scatterings in stacked organic scintillator layers. Plastic scintillator provides the proton target and is an efficient detector of charged particles. At the upper and lower face of each scintillator plate orthogonally oriented wavelength shifting fibers (∅ ∼ 1 mm) collect and guide the scintillation light to a multi-anode photomultiplier tube (MAPMT). The relative anode signals of the MAPMT register the interaction location while the total intensity of the signal is a measure of the recoil proton en...
The Fast Neutron Imaging Telescope (FNIT) instrument is a NA-22 funded project for the design, const...
Inner heliosphere measurements of the Sun can be conducted with the proposed Solar Sentinel spacecra...
Compact neutron imagers using double-scatter kinematic reconstruction are being designed for localiz...
We describe a Fast Neutron Imaging Telescope (FNIT) that is sensitive to neutrons in the energy rang...
We describe the design and performance of a position sensitive scintillator detector developed forne...
The paper describes a novel detector for neutrons in the 1 to 20-MeV energy range with combinedimagi...
The paper describes a novel detector for neutrons in the 1 to 20-MeV energy range with combined imag...
We report on the development of a next generation neutron telescope, with imaging and energy measure...
FNIT (the Fast Neutron Imaging Telescope), a detector with both imaging and energy measurement capab...
We describe a phoswich-based detector concept for studies of low energy (∼1–10 MeV) solar neutrons i...
We report on recent progress in the development of the Fast Neutron Imaging Telescope (FNIT), a dete...
We describe a phoswich-based detector concept for studies of low energy (∼1–10 MeV) solar neutrons i...
We describe the design optimization process and performance characterization of a next generation ne...
The capability to detect fast neutrons with good angular and energy resolutions is gaining increased...
We discuss the development and complete characterization of a double scatter telescope for 1--20 MeV...
The Fast Neutron Imaging Telescope (FNIT) instrument is a NA-22 funded project for the design, const...
Inner heliosphere measurements of the Sun can be conducted with the proposed Solar Sentinel spacecra...
Compact neutron imagers using double-scatter kinematic reconstruction are being designed for localiz...
We describe a Fast Neutron Imaging Telescope (FNIT) that is sensitive to neutrons in the energy rang...
We describe the design and performance of a position sensitive scintillator detector developed forne...
The paper describes a novel detector for neutrons in the 1 to 20-MeV energy range with combinedimagi...
The paper describes a novel detector for neutrons in the 1 to 20-MeV energy range with combined imag...
We report on the development of a next generation neutron telescope, with imaging and energy measure...
FNIT (the Fast Neutron Imaging Telescope), a detector with both imaging and energy measurement capab...
We describe a phoswich-based detector concept for studies of low energy (∼1–10 MeV) solar neutrons i...
We report on recent progress in the development of the Fast Neutron Imaging Telescope (FNIT), a dete...
We describe a phoswich-based detector concept for studies of low energy (∼1–10 MeV) solar neutrons i...
We describe the design optimization process and performance characterization of a next generation ne...
The capability to detect fast neutrons with good angular and energy resolutions is gaining increased...
We discuss the development and complete characterization of a double scatter telescope for 1--20 MeV...
The Fast Neutron Imaging Telescope (FNIT) instrument is a NA-22 funded project for the design, const...
Inner heliosphere measurements of the Sun can be conducted with the proposed Solar Sentinel spacecra...
Compact neutron imagers using double-scatter kinematic reconstruction are being designed for localiz...