TY - JOUR
T1 - Neutron cross section measurements at the spallation neutron source
AU - Guber, Klaus H.
AU - Koehler, Paul E.
AU - Valentine, Timothy E.
AU - Leal, Luiz C.
PY - 2002/8
Y1 - 2002/8
N2 - With the prospect of construction of the Spallation Neutron Source (SNS) at ORNL, and the fantastic high neutron flux, new, up to now impossible, experiments seem to be feasiblein the fields of applied nuclear physics and astrophysics. Theseexperiments will supply crucial neutron-induced cross section data for radionuclides, which are badly needed by many applied physics programs. The SNS will be uniquely suited for measuring thecross sections of interest to nuclear criticality safety, accelerator transmutation of nuclear waste (ATW), and heavy element nucleosynthesis for astrophysics. Because the sample sizes required at current facilities are usually too large for practical measurements, scarce information of these cross sections is available. Using the high neutron flux at the SNS will allow these measurements to be made with samples about 40 times smaller than atthe next best facility.The large reduction in sample size at theSNS will result in orders of magnitude reduction in background from the radioactive samples and make them much easier to produce; hence, a much wider range of samples will be accessible for measurement at the SNS than at any other facility.
AB - With the prospect of construction of the Spallation Neutron Source (SNS) at ORNL, and the fantastic high neutron flux, new, up to now impossible, experiments seem to be feasiblein the fields of applied nuclear physics and astrophysics. Theseexperiments will supply crucial neutron-induced cross section data for radionuclides, which are badly needed by many applied physics programs. The SNS will be uniquely suited for measuring thecross sections of interest to nuclear criticality safety, accelerator transmutation of nuclear waste (ATW), and heavy element nucleosynthesis for astrophysics. Because the sample sizes required at current facilities are usually too large for practical measurements, scarce information of these cross sections is available. Using the high neutron flux at the SNS will allow these measurements to be made with samples about 40 times smaller than atthe next best facility.The large reduction in sample size at theSNS will result in orders of magnitude reduction in background from the radioactive samples and make them much easier to produce; hence, a much wider range of samples will be accessible for measurement at the SNS than at any other facility.
KW - Neutron cross section
KW - Radioactive samples
KW - SNS
KW - Small samples
UR - http://www.scopus.com/inward/record.url?scp=85010618394&partnerID=8YFLogxK
U2 - 10.1080/00223131.2002.10875180
DO - 10.1080/00223131.2002.10875180
M3 - Article
AN - SCOPUS:85010618394
SN - 0022-3131
VL - 39
SP - 638
EP - 641
JO - Journal of Nuclear Science and Technology
JF - Journal of Nuclear Science and Technology
ER -