Add to ORKGTo compare the response to high energy neutrons and protons of the space bubble detectors in use aboard the International Space Station (ISS), three series of experiments were conducted with high energy protons and neutrons. The first series of experiments was conducted with high-energy neutrons in the energy range expected for neutrons encountered during space flight (0.6–800 MeV) at the Los Alamos Neutron Science Center (LANSCE) using the spallation neutron source. The second series was conducted with high energy protons from 30 to 70 MeV using the cyclotron at the National Institute of Radiological Science NIRS in Japan, and the third series of experiments was performed with high energy protons from 60 to 230 MeV at the ProCure proton th...
Neutron fields encountered around high-energy accelerators and on board spacecraft are both characte...
Luminescence detectors for space radiation dosimetry are frequently used to estimate personal and en...
Measurements using silicon detectors to characterize the radiation transmitted through the EMU space...
The radiation environment aboard spacecraft is a complex mixture of neutrons, photons, protons, heav...
Superheated bubble detectors (SBD) have been used aboard spacecraft for over two detectors, includin...
The neutron dose equivalent in air craft is measured using commercial bubble detectors, but at high ...
Large sized bubble detectors with different sensitivities have been irradiated with high-energy prot...
Radiation in the space station has been measured with several detectors and dosemeters; however, hig...
The Space Bubble Detector Spectrometer (SBDS) consists of six bubble detectors each with a different...
A phoswich detector was developed to measure neutron energy spectra from a few MeV to a few hundreds...
Measurement of high energy neutrons above 1 MeV is important to assess radiation protection for airc...
The space radiation environment poses risks to astronaut health from a diverse set of sources, rang...
The assessment of space radiation exposure on plants, animals, cell cultures, as well as the astrona...
The high energy neutron detector based on the phoswich technique was developed to measure neutron en...
The space radiation environment poses risks to astronaut health from a diverse set of sources, rangi...
Neutron fields encountered around high-energy accelerators and on board spacecraft are both characte...
Luminescence detectors for space radiation dosimetry are frequently used to estimate personal and en...
Measurements using silicon detectors to characterize the radiation transmitted through the EMU space...
The radiation environment aboard spacecraft is a complex mixture of neutrons, photons, protons, heav...
Superheated bubble detectors (SBD) have been used aboard spacecraft for over two detectors, includin...
The neutron dose equivalent in air craft is measured using commercial bubble detectors, but at high ...
Large sized bubble detectors with different sensitivities have been irradiated with high-energy prot...
Radiation in the space station has been measured with several detectors and dosemeters; however, hig...
The Space Bubble Detector Spectrometer (SBDS) consists of six bubble detectors each with a different...
A phoswich detector was developed to measure neutron energy spectra from a few MeV to a few hundreds...
Measurement of high energy neutrons above 1 MeV is important to assess radiation protection for airc...
The space radiation environment poses risks to astronaut health from a diverse set of sources, rang...
The assessment of space radiation exposure on plants, animals, cell cultures, as well as the astrona...
The high energy neutron detector based on the phoswich technique was developed to measure neutron en...
The space radiation environment poses risks to astronaut health from a diverse set of sources, rangi...
Neutron fields encountered around high-energy accelerators and on board spacecraft are both characte...
Luminescence detectors for space radiation dosimetry are frequently used to estimate personal and en...
Measurements using silicon detectors to characterize the radiation transmitted through the EMU space...