Your search keyword '"Jacobs, A.M."' showing total 4 results

1. First measurement of 25Al+p resonant scattering relevant to the astrophysical reaction 22Mg(α,p)25Al.

Author

Hu, J., Yamaguchi, H., Lam, Y.H., Heger, A., Kahl, D., Jacobs, A.M., Johnston, Z., Xu, S.W., Zhang, N.T., Ma, S.B., Ru, L.H., Liu, E.Q., Liu, T., Hayakawa, S., Yang, L., Shimizu, H., Hamill, C.B., Murphy, A. StJ., Su, J., and Fang, X.

Subjects

X-ray bursts, THERMONUCLEAR fuels, ASTROPHYSICS, RESONANCE, R-matrices

Abstract

Type I X-ray bursts (XRBs) are the most frequently observed thermonuclear explosions in nature. The 22Mg(α,p)25Al reaction plays a critical role in XRB models. However, experimental information is insufficient to deduce a precise 22Mg(α,p)25Al reaction rate for the respective XRB temperature range. A new measurement of 25Al+p resonant scattring was performed up to the astrophysically interested energy region of 22Mg(α,p)25Al. Several resonances were observed in the excitation functions, and their level properties have been determined based on an R-matrix analysis. In particular, proton widths and spin-parities of four natural-parity resonances above the α threshold of 26Si, which can contribute the reaction rate of 22Mg(α,p)25Al, were first experimentally determined. [ABSTRACT FROM AUTHOR]

Published

2022

2. Sensory Factors Are Insufficient to Define the Ocular Saccade Goal in Complex Visual Fields.

Author

Lévy-Schoen, A., Coëffé, C., and Jacobs, A.M.

Published

1989

3. Lateral Migration Radiography.

Author

Dugan, E.T., Jacobs, A.M., Keshavmurthy, S.P., and Wehlburg, J.C.

Subjects

RADIOGRAPHY, BACKSCATTERING

Abstract

Lateral migration radiography (LMR) is a new form of Compton backscatter imaging (CBI) that utilizes both multiple-scatter and single-scatter photons. The LMR imaging modality uses two pairs of detectors. Each set has a detector that is uncollimated to predominantly image single-scatter photons and the other collimated to image predominantly multiple-scattered photons. This allows generation of two separate images, one containing primarily surface features and the other containing primarily subsurface features. These two images make LMR useful for imaging and identifying objects to a depth of several X-ray photon mean free paths even in the presence of unknown surface clutter or surface imperfections. The principles of LMR are demonstrated through Monte Carlo simulation of the photon transport. The Monte Carlo simulation results are verified with experimental measurements from an LMR system used for landmine detection. The presented research demonstrates the methodology for designing an LMR system, identifies methods for restoring and enhancing LMR images, and lays the foundation for the development of other applications of LMR, including, for example, the nondestructive examination of welds, castings, and composites. [ABSTRACT FROM AUTHOR]

Published

1998

4. Overdiagnosticering en overbehandeling van gastro-oesofageale refluxziekte.

Author

Jacobs, A.M., Kamerbeek, A., and Jongejan, H.T.M.

Published

2013