Your search keyword '"Bergenwall, B."' showing total 5 results

1. Investigation of Three-Body Force Effects in Neutron-Deuteron Scattering at 95 MeV.

Author

Mermod, P., Blomgren, J., Bergenwall, B., Hildebrand, A., Johansson, C., Klug, J., Nilsson, L., Olsson, N., Österlund, M., Pomp, S., Tippawan, U., Jonsson, O., Prokofiev, A., Renberg, P.-U., Nadel-Turonski, P., Maeda, Y., Sakai, H., and Tamii, A.

Subjects

NEUTRONS, PARTICLES (Nuclear physics), DEUTERONS, NUCLEAR physics, SCATTERING (Physics), PHYSICS

Abstract

We have measured the neutron-deuteron (nd) elastic-scattering differential cross section at 95 MeV incident neutron energy, using both the Medley and the SCANDAL setups at TSL in Uppsala. The full angular distribution was covered by detecting recoil deuterons from thin CD2 targets, and the result was normalized to the neutron-proton (np) cross section. Recent theories predict that three-nucleon (3N) force effects, if present, would affect the cross section in the minimum region by about 30%. The results are compared with theoretical calculations and are well described if 3N forces are included. © 2005 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2005

2. A New Facility for High-Energy Neutron-Induced Fission Studies.

Author

Prokofiev, A., Pomp, S., Tippawan, U., Bergenwall, B., Blomgren, J., Carlsson, M., Dangtip, S., Einarsson, L., Haag, N., Hildebrand, A., Johansson, C., Mermod, P., and Østerlund, M.

Subjects

NUCLEAR fission, NEUTRON cross sections, COLLISIONS (Nuclear physics), FISSION cross sections, SCATTERING (Physics), RADIOACTIVE decay, NUCLEAR physics, PHYSICS

Abstract

A new facility is constructed for measurements of neutron-induced fission cross sections in the 20–180 MeV energy region versus the np scattering cross section, which is adopted as the primary neutron standard. The advantage of the experiment compared to earlier studies is that the fission-fragment detection and the neutron-flux measurement via np scattering are performed simultaneously and at the same position in the beam, and, therefore, many sources of systematic errors cancel out. Further reduction of systematic errors is achieved due to “embedded” determination of effective solid angle of particle detectors using α-particles from the radioactive decay of the target nuclei. The performance of the facility is illustrated by first data obtained for angular distributions of fission fragments in the 238U(n,f) reaction. © 2005 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2005

3. Forward-Angle Neutron-Proton Scattering at 96 MeV.

Author

Johansson, C., Blomgren, J., Ataç, A., Bergenwall, B., Hildebrand, A., Klug, J., Mermod, P., Nilsson, L., Olsson, N., Østerlund, M., Pomp, S., Tippawan, U., Jonsson, O., Prokofiev, A., Renberg, P.-U., Elmgren, K., Dangtip, S., and Nadel-Turonski, P.

Subjects

NEUTRON scattering, PROTON scattering, SCATTERING (Physics), COLLISIONS (Nuclear physics), DIFFERENTIAL cross sections, NUCLEAR cross sections, NUCLEAR physics, PHYSICS

Abstract

The differential np scattering cross section has been measured at 96 MeV in the angular range θc.m. = 20° – 76°. A full angular distribution coverage was obtained by combination with an earlier backward-angle data set at the same energy. An accurate normalization has been obtained by normalizing this extended data set to the experimental total np cross section. A novel normalization technique has been investigated. The results on forward np scattering are in reasonable agreement with theory models and partial wave analyses and have been compared with data from the literature. © 2005 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2005

4. Elastic Neutron Scattering at 96 MeV.

Author

Hildebrand, A., Blomgren, J., Ataç, A., Bergenwall, B., Johansson, C., Klug, J., Mermod, P., Nilsson, L., Pomp, S., Ȩsterlund, M., Dangtip, S., Tippawan, U., Phansuke, P., Jonsson, O., Renberg, P.-U., Prokofiev, A., Nadel-Turonski, P., Elmgren, K., Olsson, N., and Blideanu, V.

Subjects

NEUTRON scattering, NUCLEON-nucleon scattering, POTENTIAL scattering, ELASTIC scattering, SCATTERING (Physics), NEUTRON cross sections, COLLISIONS (Nuclear physics), NUCLEAR physics, PHYSICS

Abstract

A facility for detection of scattered neutrons in the energy interval 50–130 MeV, SCANDAL (SCAttered Nucleon Detection AssembLy), has recently been installed at the 20 – 180-MeV neutron beam line of The Svedberg Laboratory, Uppsala. Elastic neutron scattering from 12C, 16O, 56Fe, 89Y, and 208Pb has been studied at 96 MeV in the 10 – 70° interval. The results from 12C and 208Pb have recently been published,6 while the data from 16O, 56Fe, and 89Y are under analysis. The achieved energy resolution, 3.7 MeV, is about an order of magnitude better than for any previous experiment above 65 MeV incident energy. The present experiment represents the highest neutron energy where the ground state has been resolved from the first excited state in neutron scattering. A novel method for normalization of the absolute scale of the cross section has been used. The estimated normalization uncertainty, 3%, is unprecedented for a neutron-induced differential cross section measurement on a nuclear target. The results are compared with modern optical model predictions, based on phenomenology or microscopic theory. Applications for these measurements are nuclear-waste incineration, single-event upsets in electronics, and fast-neutron therapy. © 2005 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2005

5. Light-Ion Production in the Interaction of 96 MeV Neutrons with Silicon.

Author

Tippawan, U., Pomp, S., Atac, A., Bergenwall, B., Blomgren, J., Dangtip, S., Hildebrand, A., Johansson, C., Klug, J., Mermod, P., Nilsson, L., Österlund, M., Elmgren, K., Olsson, N., Jonsson, O., Prokofiev, A. V., Renberg, P.-U., Nadel-Turonski, P., Corcalciuc, V., and Watanabe, Y.

Subjects

COSMIC rays, ASTROPHYSICAL radiation, IONIZING radiation, NUCLEAR physics, RADIOACTIVITY, SPACE environment

Abstract

Radiation effects induced by terrestrial cosmic rays in microelectronics, on board aircrafts as well as at sea level, have recently attracted much attention. The most important particle radiation is due to spallation neutrons, created in the atmosphere by cosmic-ray protons. When, e.g., an electronic memory circuit is exposed to neutron radiation, charged particles can be produced in a nuclear reaction. The charge released by ionization can cause a flip of the memory content in a bit, which is called a single-event upset (SEU). This induces no hardware damage to the circuit, but unwanted re-programming of memories, CPUs, etc., can have consequences for the reliability, and ultimately also for the safety of the system. Data on energy and angular distributions of the secondary particles produced by neutrons in silicon nuclei are essential input for analyses and calculation of SEU rate. In this work, double-differential cross sections of inclusive light-ion (p, d, t, 3He and α) production in silicon, induced by 96 MeV neutrons, are presented. Energy distributions are measured at eight laboratory angles from 20° to 160° in steps of 20°. Deduced energy-differential and production cross sections are reported as well. Experimental cross sections are compared to theoretical reaction model calculations and existing experimental data in the literature. © 2005 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2005