C. J. Horowitz
Published 1998-01-08, updated 1998-01-22Version 2
Parity violating elastic electron-nucleus scattering provides an accurate and model independent measurement of neutron densities, because the $Z^0$ couples primarily to neutrons. Coulomb distortion corrections to the parity violating asymmetry $A_l$ are calculated exactly using a relativistic optical model. Distortions significantly reduce $A_l$ in a heavy nucleus. However even with distortions, an experiment to measure the neutron radius is feasible. This will aid the interpretation of future atomic parity violation measurements and provide fundamental nuclear structure information. Coulomb distortions and small differences between neutron and proton radii could be important for a standard model test on $^4$He, $^{12}$C or $^{16}$O.
Comments: 22 pages, 14 ps figures, Revtex using psfig. Corrections of minor typos in figures
Journal: Phys.Rev.C57:3430-3436,1998
Parity violating elastic electron scattering from 27Al and the Qweak measurement
Parity violating elastic electron scattering and neutron density distributions in the Relativistic Hartree-Bogoliubov model
Coulomb distortion of pi+/pi- as a tool to determine the fireball radius in central high energy heavy ion collisions
