430 8 Nuclear Physics – II
Electric quadrupole moment
For nuclei withJ =0or^12 , electric dipole moment is zero. For spherical nuclei
quadrupole moment is also zero. Only in non-spherical nuclei the quadrupole
moment (Q) exists.
The concept of quadrupole comes from the classical electrostatic potential theory
(Fig. 8.2).
Φ(r,θ)=1
rΣ∞n= 0an
rnPn(cosθ) (8.25)The quantity 2a 2 /eis known as the quadrupole.
Q
e=
∫
ψ∗(3z^2 −r^2 )ψdτ (8.26)Fig. 8.2Electric quadrupole
moment for nuclei of various
shapes
Nuclear reactions
x(a,b)ya+x→b+yQ=(mx+ma−my−ma)c^2 =Eb+Ey−Ea (8.27)Q=Eb(1+mb/my)−Ea(1−ma/my)−2
my(mambEaEb)(^12)
cosθ (8.28)
Exoergic reactions: Q=+ve
Endoergic reactions: Q=−ve;
Ea(threshold)=|−Q|(1+ma/mx) (8.29)
Elastic Scattering:Q=zero