Add to ORKGWe introduce spin projection methods in the shell model Monte Carlo approach and apply them to calculate the spin distribution of level densities for iron-region nuclei using the complete $(pf+g_{9/2})$-shell. We compare the calculated distributions with the spin-cutoff model and extract an energy-dependent moment of inertia. For even-even nuclei and at low excitation energies, we observe a significant suppression of the moment of inertia and odd-even staggering in the spin dependence of level densities
A simple formula for the ratio of the number of odd- and even-parity states as a function of tempera...
The computational performance of two different variational quantum Monte Carlo estimators for both t...
Nuclear level densities are necessary input to the Hauser-Feshbach theory of compound nuclear reacti...
Total and parity-projected level densities of iron-region nuclei are calculated microscopically by u...
We present a quantum Monte Carlo method with exact projection on parity and angular momentum that is...
We use the auxiliary-fields Monte Carlo method for the shell model in the complete $(pf+0g_{9/2})$-s...
A method for making realistic estimates of the density of levels in even-even nuclei is presented ma...
We use quantum Monte Carlo methods in the framework of the interacting nuclear shell model to calcul...
We review recent advances in the shell model Monte Carlo approach for the microscopic calculation of...
The Shell Model Monte Carlo (SMMC) approach has been applied to calculate level densities and partit...
The modern form of the Moments Method applied to the calculation of the nuclear shell-model level de...
We extend the shell-model Monte Carlo applications to the rare-earth region to include the odd-even ...
The shell model Monte Carlo (SMMC) method enables calculations in model spaces that are many orders ...
We present a new combinatorial method for the calculation of the nuclear level density. It is based ...
We calculate microscopically total and parity-projected level densities for Carlo methods in the com...
A simple formula for the ratio of the number of odd- and even-parity states as a function of tempera...
The computational performance of two different variational quantum Monte Carlo estimators for both t...
Nuclear level densities are necessary input to the Hauser-Feshbach theory of compound nuclear reacti...
Total and parity-projected level densities of iron-region nuclei are calculated microscopically by u...
We present a quantum Monte Carlo method with exact projection on parity and angular momentum that is...
We use the auxiliary-fields Monte Carlo method for the shell model in the complete $(pf+0g_{9/2})$-s...
A method for making realistic estimates of the density of levels in even-even nuclei is presented ma...
We use quantum Monte Carlo methods in the framework of the interacting nuclear shell model to calcul...
We review recent advances in the shell model Monte Carlo approach for the microscopic calculation of...
The Shell Model Monte Carlo (SMMC) approach has been applied to calculate level densities and partit...
The modern form of the Moments Method applied to the calculation of the nuclear shell-model level de...
We extend the shell-model Monte Carlo applications to the rare-earth region to include the odd-even ...
The shell model Monte Carlo (SMMC) method enables calculations in model spaces that are many orders ...
We present a new combinatorial method for the calculation of the nuclear level density. It is based ...
We calculate microscopically total and parity-projected level densities for Carlo methods in the com...
A simple formula for the ratio of the number of odd- and even-parity states as a function of tempera...
The computational performance of two different variational quantum Monte Carlo estimators for both t...
Nuclear level densities are necessary input to the Hauser-Feshbach theory of compound nuclear reacti...