SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1964504808> ?p ?o ?g. }

Showing items 1 to 63 of 63 with 100 items per page.

W1964504808 abstract "Recent work at Los Alamos Neutron Science Center (LANSCE), has shown that there are large gains in neutron beam intensity to be made by using coupled moderators at spallation neutron sources. Most of these gains result from broadening the pulse-width in time. However the accompanying longer exponential tail at large emission times can be a problem in that it introduces relatively large beam-related backgrounds at high resolutions. We have designed a device that can reshape the moderated neutron beam by cutting the time-tail so that a sharp time resolution can be re-established without a significant loss in intensity. In this work the basic principles behind the tail-cutter and some initial results of Monte Carlo simulations are described. Unwanted neutrons in the long time-tail are diffracted out of the transmitted neutron beam by a nested stack of aperiodic multi-layers, rocking at the same frequency as the source. Nested aperiodic multi-layers have recently been used at X-ray sources and as band-pass filters in quasi-Laue neutron experiments at reactor neutron sources. Optical devices that rock in synchronization with a pulsed neutron beam are relatively new but are already under construction at LANSCE. The tail-cutter described here is a novel concept that uses existing multi-layer technology in a new way for spallation neutrons. Coupled moderators in combination with beam shaping devices offer the means of increasing flux whilst maintaining a sharp time distribution. A prototype device is being constructed for the protein crystallography station at LANSCE. The protein crystallography station incorporates a water moderator that has been judiciously coupled in order to increase the flux over neutron energies that are important to structural biology (3-80meV). This development in moderator design is particularly important because protein crystallography is flux limited and because conventional ambient water and cold hydrogen moderators do not provide relatively large neutron fluxes over this neutron energy range." @default.
W1964504808 created "2016-06-24" @default.
W1964504808 creator A5020693564 @default.
W1964504808 creator A5054131711 @default.
W1964504808 creator A5060052246 @default.
W1964504808 date "2001-01-01" @default.
W1964504808 modified "2023-09-27" @default.
W1964504808 title "Device for Writing the Time Tail from Spallation Neutron Pulses" @default.
W1964504808 hasPublicationYear "2001" @default.
W1964504808 type Work @default.
W1964504808 sameAs 1964504808 @default.
W1964504808 citedByCount "0" @default.
W1964504808 crossrefType "journal-article" @default.
W1964504808 hasAuthorship W1964504808A5020693564 @default.
W1964504808 hasAuthorship W1964504808A5054131711 @default.
W1964504808 hasAuthorship W1964504808A5060052246 @default.
W1964504808 hasConcept C11608111 @default.
W1964504808 hasConcept C120665830 @default.
W1964504808 hasConcept C121332964 @default.
W1964504808 hasConcept C152568617 @default.
W1964504808 hasConcept C168834538 @default.
W1964504808 hasConcept C181833780 @default.
W1964504808 hasConcept C185544564 @default.
W1964504808 hasConcept C30134620 @default.
W1964504808 hasConcept C81988546 @default.
W1964504808 hasConcept C89136471 @default.
W1964504808 hasConceptScore W1964504808C11608111 @default.
W1964504808 hasConceptScore W1964504808C120665830 @default.
W1964504808 hasConceptScore W1964504808C121332964 @default.
W1964504808 hasConceptScore W1964504808C152568617 @default.
W1964504808 hasConceptScore W1964504808C168834538 @default.
W1964504808 hasConceptScore W1964504808C181833780 @default.
W1964504808 hasConceptScore W1964504808C185544564 @default.
W1964504808 hasConceptScore W1964504808C30134620 @default.
W1964504808 hasConceptScore W1964504808C81988546 @default.
W1964504808 hasConceptScore W1964504808C89136471 @default.
W1964504808 hasLocation W19645048081 @default.
W1964504808 hasOpenAccess W1964504808 @default.
W1964504808 hasPrimaryLocation W19645048081 @default.
W1964504808 hasRelatedWork W1969939539 @default.
W1964504808 hasRelatedWork W2040899500 @default.
W1964504808 hasRelatedWork W2040936398 @default.
W1964504808 hasRelatedWork W2075817923 @default.
W1964504808 hasRelatedWork W2531863795 @default.
W1964504808 hasRelatedWork W2587944939 @default.
W1964504808 hasRelatedWork W2591612043 @default.
W1964504808 hasRelatedWork W2593721964 @default.
W1964504808 hasRelatedWork W2738950866 @default.
W1964504808 hasRelatedWork W2914901407 @default.
W1964504808 hasRelatedWork W2952518532 @default.
W1964504808 hasRelatedWork W2973305937 @default.
W1964504808 hasRelatedWork W2974271491 @default.
W1964504808 hasRelatedWork W3011913435 @default.
W1964504808 hasRelatedWork W3014708959 @default.
W1964504808 hasRelatedWork W3129659025 @default.
W1964504808 hasRelatedWork W3135193314 @default.
W1964504808 hasRelatedWork W3165750564 @default.
W1964504808 hasRelatedWork W3189252860 @default.
W1964504808 hasRelatedWork W3211666753 @default.
W1964504808 isParatext "false" @default.
W1964504808 isRetracted "false" @default.
W1964504808 magId "1964504808" @default.
W1964504808 workType "article" @default.