Add to ORKGA technique to measure low intensity fast neutron flux has been developed. The design, calibrations, procedure for data analysis and interpretation of the results are discussed in detail. The technique has been applied to measure the neutron background from rock at the Boulby Underground Laboratory, a site used for dark matter and other experiments, requiring shielding from cosmic ray muons. The experiment was performed using a liquid scintillation detector. A 6.1 litre volume stainless steel cell was filled with an in-house made liquid scintillator loaded with Gd to enhance neutron capture. A two-pulse signature (proton recoils followed by gammas from neutron capture) was used to identify the neutron events from much larger gamma backgroun...
The detection of special nuclear materials (SNM) requires the understanding of nuclearsignatures tha...
Direct dark matter detection experiments usually have excellent capability to distinguish nuclear re...
Ambient neutrons may cause significant background for underground experiments. Therefore, it is nece...
We present the first measurements of the muon-induced neutron flux at the Boulby Underground Laborat...
One of the main sources of a background in underground physics experiments (such as the investigatio...
A natural neutron flux is one of significant kind of background in high-sensitive underground experi...
The rate of neutron interactions was measured for the energy range 7.5 to 60 MeV, using a 3.85 kg ce...
The typical fast neutron detector falls into one of two categories, Bonner sphere spectrometers and ...
AbstractMuon-induced neutrons are one of the major backgrounds to various underground experiments, s...
Neutron production in lead by cosmic muons has been studied with a Gadolinium doped liquid scintilla...
Environmental neutrons are a source of background for rare event searches (e.g., dark matter direct ...
We report on recent efforts to design a solid plastic scintillation hodoscope to measure neutron pro...
The 90 tons liquid scintillation detector (LSD) is fully running since October 1984, at a depth of 5...
Muon-induced neutrons are one of the major backgrounds to various underground experiments, such as d...
High-energy neutrons produce secondary particles through spallation, which create a ubiquitous and p...
The detection of special nuclear materials (SNM) requires the understanding of nuclearsignatures tha...
Direct dark matter detection experiments usually have excellent capability to distinguish nuclear re...
Ambient neutrons may cause significant background for underground experiments. Therefore, it is nece...
We present the first measurements of the muon-induced neutron flux at the Boulby Underground Laborat...
One of the main sources of a background in underground physics experiments (such as the investigatio...
A natural neutron flux is one of significant kind of background in high-sensitive underground experi...
The rate of neutron interactions was measured for the energy range 7.5 to 60 MeV, using a 3.85 kg ce...
The typical fast neutron detector falls into one of two categories, Bonner sphere spectrometers and ...
AbstractMuon-induced neutrons are one of the major backgrounds to various underground experiments, s...
Neutron production in lead by cosmic muons has been studied with a Gadolinium doped liquid scintilla...
Environmental neutrons are a source of background for rare event searches (e.g., dark matter direct ...
We report on recent efforts to design a solid plastic scintillation hodoscope to measure neutron pro...
The 90 tons liquid scintillation detector (LSD) is fully running since October 1984, at a depth of 5...
Muon-induced neutrons are one of the major backgrounds to various underground experiments, such as d...
High-energy neutrons produce secondary particles through spallation, which create a ubiquitous and p...
The detection of special nuclear materials (SNM) requires the understanding of nuclearsignatures tha...
Direct dark matter detection experiments usually have excellent capability to distinguish nuclear re...
Ambient neutrons may cause significant background for underground experiments. Therefore, it is nece...
