13.5 Sinusoidal perturbation
Another very important special case, analogous to the problem of spin magnetic resonance, is when
the time dependence of the perturbing potential is sinusoidal,
V(t) =Veiωt+V†e−iωt (13.51)whereVis a time independent operator. We again use the perturbative formula for the coefficients
cn, given in (13.34), and assume that at timet= 0, the system has been prepared in one of the
eigenstates|i〉ofH 0. We obtain,
cn(t) = δn,i−i
̄h∫t0dt′(
Veiωt′
+V†e−iωt′
)
eiωnit′= δn,i+
1 −ei(ωni+ω)t
̄h(ωni+ω)Vni+
1 −ei(ωni−ω)t
̄h(ωni−ω)Vni† (13.52)We see that this formula is very similar to the switched on interaction, except thatωni→ωni±ω.
Thus, the transition rate is supported not atωni= 0 as in the case of the switched on interaction,
but rather atωni±ω= 0. Thus the rates are given by
ωi→E=d^2 P(E,t)
dE dt=
2 π
̄h
ρ(E)|VE,Ei|^2 δ(E−Ei± ̄hω) (13.53)The two cases correspond to absorption or emission a quantumwith energy ̄h.