Difference between revisions of "Electric QuadrupoleMoment Forest NuclPhys I"
Jump to navigation
Jump to search
Line 18: | Line 18: | ||
You expand the electric potential in terms of spherical harmonics. | You expand the electric potential in terms of spherical harmonics. | ||
− | <math>\Phi(\vec{r}) = \ | + | <math>\Phi(\vec{r}) = \sum_{\ell=0}^{\infty} \sum_{m=-\ell}^{\ell} \frac{4\pi}{2l + 1} q_{lm} \frac{Y_{lm}(\theta \psi)}{r^{l+1}}</math> |
because | because |
Revision as of 05:11, 7 April 2009
Electric Quadrupole Moment of a Nucleus
Pages 104-111
As in the dipole calculation we assume that the object is in a state such that its maximum total angular momentum is along the z-axis.
or
then
From definition of quadrupole moment for a single charged object/particle.
The origin of this comes from electron-statics.
You expand the electric potential in terms of spherical harmonics.
because
\vec{E} = -\vec{\nabla} \Psi (r)
Since
if
if
if
if
potential ar
due to charge distribution atfor outside of charged sphere.
is fixed.
= multiple moments
quadrupole moment