Your search keyword '"C. Harlin"' showing total 3 results

1. Studies of nuclei close to [sup 132]Sn using single-neutron transfer reactions

Author

K. J. Jones, S. D. Pain, R. L. Kozub, A. S. Adekola, D. W. Bardayan, J. C. Blackmon, W. N. Catford, K. Y. Chae, K. Chipps, J. A. Cizewski, L. Erikson, A. L. Gaddis, U. Greife, R. Grzywacz, C. Harlin, R. Hatarik, J. A. Howard, J. James, R. Kapler, W. Królas, J. F. Liang, Z. Ma, C. Matei, B. H. Moazen, C. D. Nesaraja, P. D. O’Malley, N. P. Patterson, S. V. Paulauskas, D. Shapira, J. F. Shriner, M. Sikora, D. J. Sissom, M. S. Smith, T. P. Swan, J. S. Thomas, G. L. Wilson, K. Ernst Rehm, Birger B. Back, Henning Esbensen, and C.J. (Kim) Lister

Subjects

Nuclear physics, Deuterium, Chemistry, Nucleosynthesis, Q value, Nuclear structure, Neutron, Atomic physics, Nuclear Experiment, Ground state, Spectroscopy, Spectral line

Abstract

Neutron transfer reactions were performed in inverse kinematics using radioactive ion beams of 132Sn, 130Sn, and 134Te and deuterated polyethylene targets. Preliminary results are presented. The Q‐value spectra for 133Sn, 131Sn and 135Te reveal a number of previously unobserved peaks. The angular distributions are compatible with the expected lf7/2 nature of the ground state of 133Sn, and 2p3/2 for the 3.4 MeV state in 131Sn.

Published

2009

2. Neutron-transfer reaction studies with fission fragment radioactive ion beams near [sup 132]Sn

Author

Stan Paulauskas, J. A. Howard, Dan Shapira, R. J. Livesay, Jolie Cizewski, Robert Grzywacz, Michael Scott Smith, Robert Hatarik, A. L. Gaddis, G. L. Wilson, J. S. Thomas, W. Królas, L. Erikson, W. N. Catford, D. J. Sissom, Catalin Matei, K. L. Jones, M. S. Johnson, D. W. Bardayan, Caroline D Nesaraja, Jeffery C. Blackmon, R. Kapler, Aderemi S. Adekola, K. Y. Chae, J. F. Shriner, R. L. Kozub, S. D. Pain, C. Harlin, Kelly Chipps, T. P. Swan, Zhanwen Ma, Patrick O'Malley, Brian Moazen, W. A. Peters, and J. F. Liang

Subjects

Nuclear physics, Radioactive ion beams, Fragment (computer graphics), Fission, Chemistry, Nuclear Theory, SHELL model, Shell (structure), Nuclear shell model, Neutron, Atomic physics, Nuclear Experiment, Particle detector

Abstract

Neutron transfer (d, p) reactions have been measured with neutron‐rich fission fragment beams of 130,132Sn and 134Te populating l = 1 and l = 3 excitations above the N = 82 shell gap. Preliminary results and future prospects are discussed.

Published

2009

3. Neutron Transfer Reactions on Neutron-Rich N = 50 and N = 82 Nuclei Near the r-Process Path

Author

J. A. Cizewski, K. L. Jones, R. L. Kozub, S. D. Pain, J. S. Thomas, G. Arbanas, A. Adekola, D. W. Bardayan, J. C. Blackmon, K. Y. Chae, K. A. Chipps, D. Dean, L. Erikson, A. Gaddis, C. Harlin, R. Hatarik, J. Howard, M. S. Johnson, R. Kapler, W. Krolas, F. Liang, R. J. Livesay, Z. Ma, C. Matei, B. Moazen, C. D. Nesaraja, P. O’Malley, S. V. Paulauskas, D. Shapira, J. F. Shriner, D. J. Sissom, M. S. Smith, T. Swan, G. L. Wilson, Jan Jolie, Andreas Zilges, Nigel Warr, and Andrey Blazhev

Subjects

Physics, Silicon, Proton, Nuclear Theory, chemistry.chemical_element, Nuclear physics, Neutron capture, medicine.anatomical_structure, chemistry, medicine, r-process, Neutron, Atomic physics, Nuclear Experiment, Spectroscopy, Nucleus, Excitation

Abstract

Neutron transfer (d,p) reaction studies on the N = 50 isotones, 82Ge and 84Se, and A≈130 nuclei, 130,132Sn and 134Te, have been measured. Direct neutron capture cross sections for 82Ge and 84Se (n,γ) have been calculated and are combined with Hauser‐Feshbach expectations to estimate total (n,γ) cross sections. The A≈130 studies used an early implementation of the ORRUBA array of position‐sensitive silicon strip detectors for reaction proton measurements. Preliminary excitation energy and angular distribution results from the A≈130 measurements are reported.

Published

2009