Add to ORKGThe goal of this project was to determine the source strength of an Americium-Beryllium neutron source by irradiating metal foils of different elements. The irradiated foils were then placed on a High Purity Germanium detector and γ-decay from the decay of the neutron induced reaction products was observed and used to deduce the neutron flux. The results have been found to be in the order of magnitude of S = 2 · 105 neutrons/second, which is in fair agreement with the source strength calculated from the manufacturer’s specifications. In addition, in order to improve the reproducibility of the measurements, flexible holders have been created using 3D printers
A white neutron source based on the Be(p, nx) reaction for fission studies at the IGISOL-JYFLTRAP fa...
Small accelerator neutron sources offer considerable potential for applied neutron radiography appli...
A practical method for experimentally determining the fraction of neutrons below 1.5 MeV for the Am-...
The goal of this project was to determine the source strength of an Americium-Beryllium neutron sour...
An accurate measurement of the 4.438 MeV gamma-ray to total neutron ratio, namely R = S-gamma/S-n, f...
The He-3 “crisis” has become a fact in the last decade and large scale neutron detectors based on He...
The "3He crisis" has resulted in a major effort worldwide to develop replacement neutron-detector te...
The investigations described in this thesis relate to the development of an accurate method for the ...
Numerous techniques and equipment have been developed to provide a capability for the detection of s...
Thermal neutron flux (Фth) of Americium-Beryllium (Am-Be) neutron source has been measured by adopti...
We constructed a neutron calibration facility based on a 300-mCi Am-Be source in conjunction with a ...
The objective of this work was to characterize the neutron irradiation system consisting of americiu...
A practical method for experimentally determining the fraction of neutrons below 1.5 MeV for the Am-...
This research and development program was designed to improve nondestructive evaluation of large mec...
A white neutron source based on the Be(p,nx) reaction for fission studies at the IGISOLJYFLTRAP faci...
A white neutron source based on the Be(p, nx) reaction for fission studies at the IGISOL-JYFLTRAP fa...
Small accelerator neutron sources offer considerable potential for applied neutron radiography appli...
A practical method for experimentally determining the fraction of neutrons below 1.5 MeV for the Am-...
The goal of this project was to determine the source strength of an Americium-Beryllium neutron sour...
An accurate measurement of the 4.438 MeV gamma-ray to total neutron ratio, namely R = S-gamma/S-n, f...
The He-3 “crisis” has become a fact in the last decade and large scale neutron detectors based on He...
The "3He crisis" has resulted in a major effort worldwide to develop replacement neutron-detector te...
The investigations described in this thesis relate to the development of an accurate method for the ...
Numerous techniques and equipment have been developed to provide a capability for the detection of s...
Thermal neutron flux (Фth) of Americium-Beryllium (Am-Be) neutron source has been measured by adopti...
We constructed a neutron calibration facility based on a 300-mCi Am-Be source in conjunction with a ...
The objective of this work was to characterize the neutron irradiation system consisting of americiu...
A practical method for experimentally determining the fraction of neutrons below 1.5 MeV for the Am-...
This research and development program was designed to improve nondestructive evaluation of large mec...
A white neutron source based on the Be(p,nx) reaction for fission studies at the IGISOLJYFLTRAP faci...
A white neutron source based on the Be(p, nx) reaction for fission studies at the IGISOL-JYFLTRAP fa...
Small accelerator neutron sources offer considerable potential for applied neutron radiography appli...
A practical method for experimentally determining the fraction of neutrons below 1.5 MeV for the Am-...