Add to ORKG© 2020, Pleiades Publishing, Ltd. Abstract: Examples of phase transitions occurring in atomic nuclei in response to an increase in the excitation energy and angular momenta and in response to a change in the number of nucleons are considered. The possibility of describing such transitions within collective models based on a Hamiltonian that depends on a relatively small number of dynamical variables is demonstrated
We discuss briefly the phases of nuclear single particle motion and collective motion. Meanwhile we ...
Various aspects of shape phase transitions in even as well as odd systems are reviewed. Firstly, the...
Abstract. The mean-field approximation predicts pairing and shape phase transitions in nuclei as a f...
The evolution of system observables at critical points of quantum phase transitions in atomic nuclei...
Quantum phase transitions describe the behaviour of quantum systems as a function of one or several ...
The evolution of shapes and shape (phase) transitions, including regions of short-lived exotic nucle...
Implementing a shell model Hamiltonian with monopole-pair, quadrupole-pair and quadrupole-quadrupole...
A classical analysis of shape phase transition and shape coexistence in odd-even nuclei has been car...
Abstract. The nucleus is described as an open many-body quantum system with a non-Hermitian Hamilton...
In this bachelor work phase transitions in atomic nuclei are studied. The main attention is paid to ...
This review is focused on various properties of quantum phase transitions (QPTs) in the Inter-acting...
Quantum Phase Transitions arising in algebraic and collective models of nuclear structure are review...
Shape coexistence in nuclei appears to be unique in the realm of finite many-body quantum systems. I...
AbstractImplementing a shell model Hamiltonian with monopole-pair, quadrupole-pair and quadrupole–qu...
In the present discussion we concentrate on shape coexistence as obtained within a deformed single-p...
We discuss briefly the phases of nuclear single particle motion and collective motion. Meanwhile we ...
Various aspects of shape phase transitions in even as well as odd systems are reviewed. Firstly, the...
Abstract. The mean-field approximation predicts pairing and shape phase transitions in nuclei as a f...
The evolution of system observables at critical points of quantum phase transitions in atomic nuclei...
Quantum phase transitions describe the behaviour of quantum systems as a function of one or several ...
The evolution of shapes and shape (phase) transitions, including regions of short-lived exotic nucle...
Implementing a shell model Hamiltonian with monopole-pair, quadrupole-pair and quadrupole-quadrupole...
A classical analysis of shape phase transition and shape coexistence in odd-even nuclei has been car...
Abstract. The nucleus is described as an open many-body quantum system with a non-Hermitian Hamilton...
In this bachelor work phase transitions in atomic nuclei are studied. The main attention is paid to ...
This review is focused on various properties of quantum phase transitions (QPTs) in the Inter-acting...
Quantum Phase Transitions arising in algebraic and collective models of nuclear structure are review...
Shape coexistence in nuclei appears to be unique in the realm of finite many-body quantum systems. I...
AbstractImplementing a shell model Hamiltonian with monopole-pair, quadrupole-pair and quadrupole–qu...
In the present discussion we concentrate on shape coexistence as obtained within a deformed single-p...
We discuss briefly the phases of nuclear single particle motion and collective motion. Meanwhile we ...
Various aspects of shape phase transitions in even as well as odd systems are reviewed. Firstly, the...
Abstract. The mean-field approximation predicts pairing and shape phase transitions in nuclei as a f...