We review recent results obtained in numerical studies of the nuclear shell model and the interacting boson model with random interactions, in particular the dominance of ground states with L=0 and the occurrence of vibrational and rotational bands. We discuss some possible explanations of the origin of these regular features
The spectral statistics of low--lying states of fp shell nuclei are studied by performing large shel...
We present our results on properties of ground states for nucleonic systems in the presence of rando...
8 pages, 10 figures, 8 tables, submitted to Physical Review CA variable combination of realistic and...
We speak of chaos in quantum systems if the statistical properties of the eigenvalue spectrum coinci...
In order to investigate to what extent is the low-lying behavior of even-even nuclei dependent on pa...
We show and interpret three examples of nontrivial results obtained in numerical simulations of many...
Shell-model calculations with realistic empirical interactions constitute an excellent tool to study...
We continue a series of numerical experiments on many-body systems with random two-body interactions...
The issue of averaging randomness is addressed, mostly in nuclear physics, but shortly also in QCD. ...
The anharmonic vibrator and rotor regions in nuclei are investigated in the framework of the interac...
We investigate the origin of the regular features observed in numerical studies of the interacting b...
We investigate the origin of order in the low-lying spectra of many-body systems with random two-bod...
During the last three decades the quest for chaos in nuclei has been quite intensive, both with theo...
The regularities in nuclear spectra, especially the spin-zero ground states of even-even nuclei are ...
To elucidate the mechanism by which chaos is generated in the shell model, we compare three random-m...
The spectral statistics of low--lying states of fp shell nuclei are studied by performing large shel...
We present our results on properties of ground states for nucleonic systems in the presence of rando...
8 pages, 10 figures, 8 tables, submitted to Physical Review CA variable combination of realistic and...
We speak of chaos in quantum systems if the statistical properties of the eigenvalue spectrum coinci...
In order to investigate to what extent is the low-lying behavior of even-even nuclei dependent on pa...
We show and interpret three examples of nontrivial results obtained in numerical simulations of many...
Shell-model calculations with realistic empirical interactions constitute an excellent tool to study...
We continue a series of numerical experiments on many-body systems with random two-body interactions...
The issue of averaging randomness is addressed, mostly in nuclear physics, but shortly also in QCD. ...
The anharmonic vibrator and rotor regions in nuclei are investigated in the framework of the interac...
We investigate the origin of the regular features observed in numerical studies of the interacting b...
We investigate the origin of order in the low-lying spectra of many-body systems with random two-bod...
During the last three decades the quest for chaos in nuclei has been quite intensive, both with theo...
The regularities in nuclear spectra, especially the spin-zero ground states of even-even nuclei are ...
To elucidate the mechanism by which chaos is generated in the shell model, we compare three random-m...
The spectral statistics of low--lying states of fp shell nuclei are studied by performing large shel...
We present our results on properties of ground states for nucleonic systems in the presence of rando...
8 pages, 10 figures, 8 tables, submitted to Physical Review CA variable combination of realistic and...