Your search keyword '"H.B. Asberry"' showing total 2 results

1. Population distribution subsequent to charge exchange of 29.85 keV Ni+ on sodium vapor

Author

Kei Minamisono, R. Strum, D. Rossi, C. A. Ryder, A. Miller, P. F. Mantica, H.B. Asberry, and B. Isherwood

Subjects

education.field_of_study, Population, chemistry.chemical_element, Atomic and Molecular Physics, and Optics, Analytical Chemistry, Ion, Nickel, chemistry, Cascade, Metastability, Redistribution (chemistry), Emission spectrum, Atomic physics, Spectroscopy, education, Instrumentation

Abstract

The population of low-energy metastable states in Ni I subsequent to charge-exchange reactions and cascade decay was studied for 29.85 keV Ni ions impinging on a sodium vapor. The charge-exchange cross sections were calculated using a semi-classic time-dependent perturbation theory and redistribution of the population via rapid spontaneous decays was simulated. Collinear laser spectroscopy experiments were performed on four emission lines in Ni I to determine populations in low-energy metastable states: 3d94s 3D3 (204.787 cm− 1), 3d94s 3D2 (879.816 cm− 1), 3d94s 3D1 (1713.087 cm− 1) and 3d94s 1D2 (3409.937 cm− 1). Fair agreement was obtained between the simulation and experimental results. The low-energy metastable states were preferentially populated after the cascade decay in contrast to weak populations in near-resonant high-energy states in Ni I.

Published

2015

2. Charge radii of neutron-deficientK36andK37

Author

A. Miller, K. Cooper, B. Isherwood, J. A. Rodriguez, C. A. Ryder, Chandana Sumithrarachchi, David J. Morrissey, R. Strum, P. F. Mantica, Georg Bollen, Ryan Ringle, A. Smith, H.B. Asberry, D. Rossi, B. A. Brown, and Kei Minamisono

Subjects

Physics, Nuclear and High Energy Physics, Proton, Charge radius, Neutron number, Quadrupole, Charge density, Charge (physics), Atomic physics, Hyperfine structure, Spectral line

Abstract

Background: The systematic trend in mean-square charge radii as a function of proton or neutron number exhibits a discontinuity at the nucleon-shell closures. While the established $N=28$ shell closure is evident in the charge radii of the isotopic chains of K through Mn, a similar signature of the $N=20$ shell closure is absent in the Ca region.Purpose: The isotope shift between neutron-deficient $^{36}\mathrm{K}$ and $^{37}\mathrm{K}$ was determined to investigate the change of the mean-square charge radii across $N=20$ in the K isotopic chain.Methods: The $D1$ atomic hyperfine spectra of $^{36}\mathrm{K}$ and $^{37}\mathrm{K}$ were measured using an optical pumping and subsequent $\ensuremath{\beta}$-decay asymmetry detection technique. Atomic rate equations were solved to fit the resonant line shape. The result was compared to Skyrme energy-density functional and shell-model calculations.Results: The isotope shift was obtained as $\ensuremath{\delta}{\ensuremath{\nu}}^{37,36}=\ensuremath{-}139(4)(3)$ MHz. Using a re-evaluated isotope shift, $\ensuremath{\delta}{\ensuremath{\nu}}^{39,37}=\ensuremath{-}264(2)(3)$ MHz, the isotope shift relative to $^{39}\mathrm{K}$ was determined to be $\ensuremath{\delta}{\ensuremath{\nu}}^{39,36}=\ensuremath{-}403(5)(4)$ MHz. The differential mean-square charge radius was then deduced as $\ensuremath{\delta}{\ensuremath{\langle}{r}^{2}\ensuremath{\rangle}}^{39,36}=\ensuremath{-}0.16(5)(8)\phantom{\rule{4pt}{0ex}}{\mathrm{fm}}^{2}$. The Skyrme energy-density functional and shell-model calculations overpredict the experimental values below $N=20$ and underpredict them above $N=20$, and their agreement is marginal.Conclusions: The absence of the shell-closure signature at $N=20$ in the K isotopic chain is understood as a balance between the monopole and the quadrupole proton-core polarizations below and above $N=20$, respectively.

Published

2015