Your search keyword '"Akunuri Ramayya"' showing total 3 results

1. Identification of levels in162,164Gd and decrease in moment of inertia betweenN= 98–100

Author

Jennkang J.K. Hwang, Wenchao W.C. Ma, T. Cornelius, Jerald Cole, P. Fallon, Raul Donangelo, C. J. Beyer, T. J. Bürvenich, A. P. Delima, J. O. Rasmussen, G. M. Ter-Akopian, P. Fleischer, P. M. Gore, Shichchuan S.C. Wu, Joseph H. Hamilton, Yixiao Y.X. Luo, Joachim A. Maruhn, X. Q. Zhang, Shengjiang S.J. Zhu, Evan E.F. Jones, T. N. Ginter, Akunuri Ramayya, M. A. Stoyer, A. V. Daniel, Michaël Bender, Paul-Gerhard Reinhard, Stefan Schramm, Stephen Asztalos, I. Y. Lee, and J. Kormicki

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Spin states, Mean field theory, Yrast, Double gate, Neutron, Moment of inertia, Atomic physics, Coincidence

Abstract

From prompt γ-γ-γ coincidence studies with a 252Cf source, the yrast levels were identified from 2+ to 16+ and 14+ in neutron-rich 162,164Gd, respectively. Transition energies between the same spin states are higher and moments of inertia lower at every level in N = 100 164Gd than in N = 98 162Gd. These observations are in contrast to the continuous decrease in the 2+ energy to a minimum at neutron midshell (N = 104) in Er, Yb, and Hf nuclei.

Published

2004

2. Structural changes observed in neutron rich A=108-122 nuclei

Author

Akunuri Ramayya

Subjects

Nuclear physics, Materials science, Neutron

Published

2014

3. Possible excited deformed rotational bands in82Ge

Author

Joseph H. Hamilton, Akunuri Ramayya, J. K. Hwang, John O. Rasmussen, Y. X. Luo, S. J. Zhu, and N. T. Brewer

Subjects

Physics, Nuclear reaction, Nuclear and High Energy Physics, Isotopes of germanium, Astrophysics::High Energy Astrophysical Phenomena, Excited state, Binding energy, Atomic physics, Open shell, Energy (signal processing), Radioactive decay, Spontaneous fission

Abstract

Excited states of neutron-rich nucleus {sup 82}Ge were studied from the spontaneous fission of {sup 252}Cf. Eleven new transitions and seven new levels in {sup 82}Ge were identified by using X(Dy)-{gamma}-{gamma} and {gamma}-{gamma}-{gamma} triple coincidences. Possible excited deformed rotational bands are observed, for the first time, in this nuclear region. Coexistence of the spherical ground and deformed excited shapes is proposed in {sup 82}Ge. These deformed rotational bands can be formed by two-particle, two-hole excitations with the 0{sup +} pairing energy states of the {nu}9/2[404]{sup -2} x 1/2[431]{sup 2} configuration across the N=50 closed shell.

Published

2011