A microscopic theory is presented for identifying shape-phase structures and transitions in interacting fermion systems. The method provides a microscopic description for collective shape-phases, and reveals detailed dependence of such shape-phases on microscopic interaction strengths. The theory is generally applicable to fermion systems such as nuclei, quarks, and in particular trapped cold atoms, where shape-phases may be observed and investigated in a controlled manner
Quantum shape-phase transitions in finite nuclei are considered in the framework of the interacting ...
An innovative way to produce quantum Hall ribbons in a cold atomic system is to use M hyperfine stat...
Shape phase transitions in odd-A nuclei are investigated within the framework of the interacting bos...
The relativistic mean-field framework, extended to include correlations related to restoration of br...
The relativistic mean-field framework, extended to include correlations related to restoration of br...
Several aspect of shape phase transitions and critical point symmstries are reviewed inthis contribu...
AbstractImplementing a shell model Hamiltonian with monopole-pair, quadrupole-pair and quadrupole–qu...
We investigate a description of shape-mixing and shape-transitions using collective coordinates. To ...
A systematic analysis of low-lying quadrupole and octupole collective states is presented based on t...
A systematic analysis of low-lying quadrupole and octupole collective states is presented based on t...
Implementing a shell model Hamiltonian with monopole-pair, quadrupole-pair and quadrupole-quadrupole...
The interacting boson model (IBM) Hamiltonian is determined microscopically for general cases of low...
Microscopic models, which embody the simplicity and significance of a dynamical symmetry approach to...
AbstractImplementing a shell model Hamiltonian with monopole-pair, quadrupole-pair and quadrupole–qu...
The exact solutions of either spherical or deformed mean-field plus various types of pairing models ...
Quantum shape-phase transitions in finite nuclei are considered in the framework of the interacting ...
An innovative way to produce quantum Hall ribbons in a cold atomic system is to use M hyperfine stat...
Shape phase transitions in odd-A nuclei are investigated within the framework of the interacting bos...
The relativistic mean-field framework, extended to include correlations related to restoration of br...
The relativistic mean-field framework, extended to include correlations related to restoration of br...
Several aspect of shape phase transitions and critical point symmstries are reviewed inthis contribu...
AbstractImplementing a shell model Hamiltonian with monopole-pair, quadrupole-pair and quadrupole–qu...
We investigate a description of shape-mixing and shape-transitions using collective coordinates. To ...
A systematic analysis of low-lying quadrupole and octupole collective states is presented based on t...
A systematic analysis of low-lying quadrupole and octupole collective states is presented based on t...
Implementing a shell model Hamiltonian with monopole-pair, quadrupole-pair and quadrupole-quadrupole...
The interacting boson model (IBM) Hamiltonian is determined microscopically for general cases of low...
Microscopic models, which embody the simplicity and significance of a dynamical symmetry approach to...
AbstractImplementing a shell model Hamiltonian with monopole-pair, quadrupole-pair and quadrupole–qu...
The exact solutions of either spherical or deformed mean-field plus various types of pairing models ...
Quantum shape-phase transitions in finite nuclei are considered in the framework of the interacting ...
An innovative way to produce quantum Hall ribbons in a cold atomic system is to use M hyperfine stat...
Shape phase transitions in odd-A nuclei are investigated within the framework of the interacting bos...
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