Abstract
Nuclear level schemes and neutron resonance spacings yield information on level densities and level spacing distributions. A total of 75 nuclear level schemes with 1761 levels and known spins and parities was investigated. The A-dependence of level density parameters is discussed. The spacing distributions of levels near the groundstate indicate transitional character between regular and chaotic properties while chaos dominates near the neutron binding energy.
Citation Formats
Egidy, T von, Schmidt, H H, and Behkami, A N.
Statistical interpretation of low energy nuclear level schemes.
United Kingdom: N. p.,
1988.
Web.
Egidy, T von, Schmidt, H H, & Behkami, A N.
Statistical interpretation of low energy nuclear level schemes.
United Kingdom.
Egidy, T von, Schmidt, H H, and Behkami, A N.
1988.
"Statistical interpretation of low energy nuclear level schemes."
United Kingdom.
@misc{etde_7111096,
title = {Statistical interpretation of low energy nuclear level schemes}
author = {Egidy, T von, Schmidt, H H, and Behkami, A N}
abstractNote = {Nuclear level schemes and neutron resonance spacings yield information on level densities and level spacing distributions. A total of 75 nuclear level schemes with 1761 levels and known spins and parities was investigated. The A-dependence of level density parameters is discussed. The spacing distributions of levels near the groundstate indicate transitional character between regular and chaotic properties while chaos dominates near the neutron binding energy.}
journal = []
volume = {14 Suppl.}
place = {United Kingdom}
year = {1988}
month = {Jan}
}
title = {Statistical interpretation of low energy nuclear level schemes}
author = {Egidy, T von, Schmidt, H H, and Behkami, A N}
abstractNote = {Nuclear level schemes and neutron resonance spacings yield information on level densities and level spacing distributions. A total of 75 nuclear level schemes with 1761 levels and known spins and parities was investigated. The A-dependence of level density parameters is discussed. The spacing distributions of levels near the groundstate indicate transitional character between regular and chaotic properties while chaos dominates near the neutron binding energy.}
journal = []
volume = {14 Suppl.}
place = {United Kingdom}
year = {1988}
month = {Jan}
}