J. A. Caballero, E. Garrido, E. Moya de Guerra, P. Sarriguren, J. M. Udias
Published 1994-11-11Version 1
We study the properties of the spin dependent one body density in momentum space for odd--A polarized deformed nuclei within the mean field approximation. We derive analytic expressions connecting intrinsic and laboratory momentum distributions. The latter are related to observable transition densities in {\bf p}--space that can be probed in one nucleon knock--out reactions from polarized targets. It is shown that most of the information contained in the intrinsic spin dependent momentum distribution is lost when the nucleus is not polarized. Results are presented and discussed for two prolate nuclei, $^{21}$Ne and $^{25}$Mg, and for one oblate nucleus, $^{37}$Ar. The effects of deformation are highlighted by comparison to the case of odd--A nuclei in the spherical model.
Comments: Latex 2.09. 25 pages and 6 figures (available from emjuanan@iem.csic.es), to appear in Ann. of Phys
Journal: Ann. Phys. (N.Y.) 239 (1995), 351
Elliptic Flow in Central Collisions of Deformed Nuclei
Rotational constants of multi-phonon bands in an effective theory for deformed nuclei
Collisions of Deformed Nuclei and Superheavy-Element Production
