Chirality in odd-$A$ nucleus $^{135}$Nd in particle rotor model

Alcántara-Núñez; Almehed; B. Qi; Bark; Carlsson; Carlsson; Dimitrov; Frauendorf; Frauendorf; Grodner; J. Meng; Joshi; Joshi; Koike; Koike; Koike; Larsson; Lawrie; Meng; Mergel; Mukhopadhyay; Mukhopadhyay; Olbratowski; Peng; Peng; Petrache; S. Frauendorf; S.Q. Zhang; S.Y. Wang; Starosta; Timár; Timár; Tonev; Tonev; Vaman; Wang; Wang; Wang; Zhang; Zhu

research

Chirality in odd- $A$ nucleus $^{135}$ Nd in particle rotor model

Authors: Alcántara-Núñez
Almehed
B. Qi
Bark
Carlsson
Carlsson
Dimitrov
Frauendorf
Frauendorf
Grodner
J. Meng
Joshi
Joshi
Koike
Koike
Koike
Larsson
Lawrie
Meng
Mergel
Mukhopadhyay
Mukhopadhyay
Olbratowski
Peng
Peng
Petrache
S. Frauendorf
S.Q. Zhang
S.Y. Wang
Starosta
Timár
Timár
Tonev
Tonev
Vaman
Wang
Wang
Wang
Zhang
Zhu
Publication date: 25 December 2008
Publisher: 'Elsevier BV'
Doi

Abstract

A particle rotor model is developed which couples several valence protons and neutrons to a rigid triaxial rotor core. It is applied to investigating the chirality in odd-

A

nucleus

^{135}

Nd with

\pi h_{11/2}^2\otimes\nu h^{-1}_{11/2}

configuration for the first time in a fully quantal approach. For the two chiral sister bands, the observed energies and the

B(M1)

and

B(E2)

values for the in-band as well as interband transitions are reproduced excellently. Root mean square values of the angular momentum components and their probability distributions are used for discussing in detail the chiral geometry of the aplanar rotation and its evolution with angular momentum. Chirality is found to change from a soft chiral vibration to nearly static chirality at spin