Monte Carlo Methods for Nuclear Structure
Abstract
Quantum Monte Carlo methods find fruitful application in large shell model problems. These methods reduce the imaginary-time many-body evolution operator to a coherent superposition of one-body evolutions in a fluctuating one-body field; the resultant path integral is evaluated stochastically. After a brief review of the capabilities and general strategy of Shell Model Monte Carlo methods, I discuss results and insights obtained from a number of applications. These include the ground state and thermal properties of {\it pf}-shell nuclei, the thermal and rotational behavior of rare-earth and -soft nuclei, and the calculation of double beta-decay matrix elements. Prospects for further progress in such calculations are also discussed.
Cite
@article{arxiv.nucl-th/9509038,
title = {Monte Carlo Methods for Nuclear Structure},
author = {S. E. Koonin},
journal= {arXiv preprint arXiv:nucl-th/9509038},
year = {2008}
}
Comments
14 pages, 12 figures available at http://www.krl.caltech.edu/preprints/MAP.html