SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4286517188> ?p ?o ?g. }

Showing items 1 to 74 of 74 with 100 items per page.

W4286517188 endingPage "167201" @default.
W4286517188 startingPage "167201" @default.
W4286517188 abstract "Nuclear security, the prevention of special nuclear material (SNM) smuggling, at borders and ports has been described as one of the 21st century grand challenges. Currently, thermal neutron detectors (a majority of which are He-3 detectors), are used to monitor for neutrons emitted from special nuclear materials. He-3 neutron absorption cross-sections are ∼103 times higher for thermal vs fast neutrons; as such, moderated He-3 detectors must suffer from reduced efficiency (due to scattering and absorption in moderators) for detection of fast neutrons emitted from fission of SNMs. Development of a real-time high-efficiency gamma/beta blind, directionality-determining thermal and fast neutron monitoring system without need for bulky moderation is needed to allow for optimal SNM monitoring. The previously developed economical acoustically tensioned metastable fluid detector (E-ATMFD(Ver.0), offered all of these capabilities but exhibited low (∼0.01–0.05%) efficiencies than conventional neutron monitors. Design optimization guided via coupled multiphysics-neutron transport simulation tools, together with devising a figure of merit algorithm, experimental validation work with various reflector shapes, and a novel detection fluid “DFP”, the direct drive E-ATMFD(Ver.1) architecture was devised and demonstrated to offer ∼5 to 27x improvement in neutron detection efficiency. Using borated DFP mixture version E-ATMFD(Ver.1B), epithermal to fast neutron detection capabilities were demonstrated — effectively extending the sensitivity to all energies of neutrons and increasing the efficiency by another factor of up to ∼2.5. Further research included development of a novel frequency sweep-cum-rate drive mode to successfully operate multiple E-ATMFDs simultaneously from a single power source; resulting in a further 4x detection efficiency improvement from enhanced scattering and electromagnetic coupling — showing potential for enabling large array mode SNM interrogation." @default.
W4286517188 created "2022-07-22" @default.
W4286517188 creator A5001673957 @default.
W4286517188 creator A5020247338 @default.
W4286517188 creator A5025018976 @default.
W4286517188 creator A5056317992 @default.
W4286517188 date "2022-10-01" @default.
W4286517188 modified "2023-10-01" @default.
W4286517188 title "Advances in acoustically-tensioned metastable detector neutron detection technology" @default.
W4286517188 cites W2023903832 @default.
W4286517188 cites W2031044584 @default.
W4286517188 cites W2044792657 @default.
W4286517188 cites W2076914797 @default.
W4286517188 cites W2537428453 @default.
W4286517188 cites W2550143620 @default.
W4286517188 cites W2807208215 @default.
W4286517188 doi "https://doi.org/10.1016/j.nima.2022.167201" @default.
W4286517188 hasPublicationYear "2022" @default.
W4286517188 type Work @default.
W4286517188 citedByCount "0" @default.
W4286517188 crossrefType "journal-article" @default.
W4286517188 hasAuthorship W4286517188A5001673957 @default.
W4286517188 hasAuthorship W4286517188A5020247338 @default.
W4286517188 hasAuthorship W4286517188A5025018976 @default.
W4286517188 hasAuthorship W4286517188A5056317992 @default.
W4286517188 hasConcept C116915560 @default.
W4286517188 hasConcept C120665830 @default.
W4286517188 hasConcept C121332964 @default.
W4286517188 hasConcept C127413603 @default.
W4286517188 hasConcept C152568617 @default.
W4286517188 hasConcept C153454851 @default.
W4286517188 hasConcept C181833780 @default.
W4286517188 hasConcept C185544564 @default.
W4286517188 hasConcept C192562407 @default.
W4286517188 hasConcept C27251351 @default.
W4286517188 hasConcept C555451288 @default.
W4286517188 hasConcept C66963500 @default.
W4286517188 hasConcept C78310665 @default.
W4286517188 hasConcept C89136471 @default.
W4286517188 hasConcept C94915269 @default.
W4286517188 hasConceptScore W4286517188C116915560 @default.
W4286517188 hasConceptScore W4286517188C120665830 @default.
W4286517188 hasConceptScore W4286517188C121332964 @default.
W4286517188 hasConceptScore W4286517188C127413603 @default.
W4286517188 hasConceptScore W4286517188C152568617 @default.
W4286517188 hasConceptScore W4286517188C153454851 @default.
W4286517188 hasConceptScore W4286517188C181833780 @default.
W4286517188 hasConceptScore W4286517188C185544564 @default.
W4286517188 hasConceptScore W4286517188C192562407 @default.
W4286517188 hasConceptScore W4286517188C27251351 @default.
W4286517188 hasConceptScore W4286517188C555451288 @default.
W4286517188 hasConceptScore W4286517188C66963500 @default.
W4286517188 hasConceptScore W4286517188C78310665 @default.
W4286517188 hasConceptScore W4286517188C89136471 @default.
W4286517188 hasConceptScore W4286517188C94915269 @default.
W4286517188 hasLocation W42865171881 @default.
W4286517188 hasOpenAccess W4286517188 @default.
W4286517188 hasPrimaryLocation W42865171881 @default.
W4286517188 hasRelatedWork W142156085 @default.
W4286517188 hasRelatedWork W1597225649 @default.
W4286517188 hasRelatedWork W1629039562 @default.
W4286517188 hasRelatedWork W2008055732 @default.
W4286517188 hasRelatedWork W2243696198 @default.
W4286517188 hasRelatedWork W2505497004 @default.
W4286517188 hasRelatedWork W3043345026 @default.
W4286517188 hasRelatedWork W4286517188 @default.
W4286517188 hasRelatedWork W4313147333 @default.
W4286517188 hasRelatedWork W4377693814 @default.
W4286517188 hasVolume "1040" @default.
W4286517188 isParatext "false" @default.
W4286517188 isRetracted "false" @default.
W4286517188 workType "article" @default.