Tensors for Physics

(Marcin) #1

238 12 Integral Formulae and Distribution Functions


Multiplication of (12.144)byΨ∗′and subsequent integration overd^3 ryields non-
zero contributions only for′−=0,±2. The resulting quadrupole transition matrix
elements are


( 4 π)−^1


Ψ∗+ 2 eλ̂kκ̂rλ̂rκΨd^3 r=


(+ 2 )(+ 1 )

( 2 + 5 )( 2 + 3 )

eν+ 1 ̂kν+ 2

×


r^2 c∗ν 1 ···ν+ 1 ν+ 2 cν 1 ···νr^2 dr,

( 4 π)−^1


Ψ∗eλ̂kκ̂rλ̂rκΨd^3 r=

2 

2 + 3

eλ̂kκ


r^2 c∗λν 2 ···νcκν 2 ···νr^2 dr,

( 4 π)−^1


Ψ∗− 2 eλ̂kκ̂rλ̂rκΨd^3 r=


(+ 1 )

( 2 + 1 )( 2 − 1 )

eν− 1 ̂kν

×


r^2 c∗ν 1 ···ν− 2 cν 1 ···νr^2 dr.

The selection rule determines which angular momentum state can be reached in an
allowed transition. The strength of the transition rate is determined by the remaining
overlap integral



···dr.
The relevant perturbation Hamiltonian fortwo-quantum absorptionprocesses is
proportional torλrκEκEλ, thus of second order in the radiation fieldE. Here the
quadrupole selection rules′−=0,±2 apply as well.

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