Abstract
The random phase approximation calculations of charge transition densities for the E2-transitions from the ground state to the low-lying I{sup {pi}}K{sub {upsilon}}=2{sup +}2{sub {upsilon}} and 2{sup +}0{sub {upsilon}} states in {sup 164}Dy predict rather strong peaks of single-particle nature in the interiour of the CTD. The simple explanation of the results is given. The reliability of the obtained results. Their possible application to studying the structure of low-lying states and some predictions for nuclei of the rare-earth region are discussed. 4 refs.; 2 figs.; 2 tabs.
Citation Formats
Nesterenko, V O, and Sushkov, A V.
The interior of charge transition density and the structure of low-lying states in deformed nuclei.
USSR: N. p.,
1990.
Web.
Nesterenko, V O, & Sushkov, A V.
The interior of charge transition density and the structure of low-lying states in deformed nuclei.
USSR.
Nesterenko, V O, and Sushkov, A V.
1990.
"The interior of charge transition density and the structure of low-lying states in deformed nuclei."
USSR.
@misc{etde_10102617,
title = {The interior of charge transition density and the structure of low-lying states in deformed nuclei}
author = {Nesterenko, V O, and Sushkov, A V}
abstractNote = {The random phase approximation calculations of charge transition densities for the E2-transitions from the ground state to the low-lying I{sup {pi}}K{sub {upsilon}}=2{sup +}2{sub {upsilon}} and 2{sup +}0{sub {upsilon}} states in {sup 164}Dy predict rather strong peaks of single-particle nature in the interiour of the CTD. The simple explanation of the results is given. The reliability of the obtained results. Their possible application to studying the structure of low-lying states and some predictions for nuclei of the rare-earth region are discussed. 4 refs.; 2 figs.; 2 tabs.}
place = {USSR}
year = {1990}
month = {Dec}
}
title = {The interior of charge transition density and the structure of low-lying states in deformed nuclei}
author = {Nesterenko, V O, and Sushkov, A V}
abstractNote = {The random phase approximation calculations of charge transition densities for the E2-transitions from the ground state to the low-lying I{sup {pi}}K{sub {upsilon}}=2{sup +}2{sub {upsilon}} and 2{sup +}0{sub {upsilon}} states in {sup 164}Dy predict rather strong peaks of single-particle nature in the interiour of the CTD. The simple explanation of the results is given. The reliability of the obtained results. Their possible application to studying the structure of low-lying states and some predictions for nuclei of the rare-earth region are discussed. 4 refs.; 2 figs.; 2 tabs.}
place = {USSR}
year = {1990}
month = {Dec}
}