452 8 Nuclear Physics – II
Fig. 8.9Ellipsoid of
revolution
The equation of the ellipsoid is
(
x′^2
b^2)
+
(
y′^2
b^2)
+
(
z′^2
a^2)
= 1
In cylindrical coordinates (z′,s′,φ′) the equation is
(
s′^2
b^2)
+
(
z′^2
a^2)
= 1 ,wheres′^2 =x′^2 +y′^2Q=
∫
ρ(3z′^2 −r′^2 )dτ′ρ=Ze
( 4 π
3)
ab^2Q=
3 Ze
4 ab^2∫a0dz/∫b√ 1 −(z/ (^2) /a (^2) )
0
(2z/^2 −s/^2 )s/ds/
∫ 2 π
0
dφ/
=
2
5
Ze(a^2 −b^2 )8.14 The quadrupoleQ=^45 ηZR^2
η=a−b
R
Tantalum:
R= 1. 5 ×(181)^1 /^3 = 8 .48fmη=5 Q
4 ZR^2
=
5 × 6 ×100 fm^2
4 × 73 ×(8.48)^2 fm^2= 0. 143
The ratio of major to minor axes is
a
b∼= 1 +η= 1. 143Antimony: R= 1. 5 ×(123)^1 /^3 = 7 .458 fmη=5
4
(− 1. 2 ×100 fm^2 )
51 ×(7.458)^2 fm^2=− 0. 053
a
b