Quantum Theory of Raman Effect

Quantum Theory of Raman Effect

Quantum Theory of Raman Effect

Quantum theory of the Raman effect explains the phenomenon by considering the interaction between incident photons and vibrational modes of molecules of the system.
It imagines perfectly elastic collisions taking place between the light photons with energy h𝜈 and molecules of mass m in energy state Ep moving with a velocity v. After collision, if Eq is the energy state of the molecule and v' is its velocity then-
Ep + ½ mv2 + h𝜈 = Eq + ½ mv'2 + h𝜈'
where, v and v' are the velocities of photon before and after collision respectively.
It can be easily proved that the velocity of the molecule practically remain unchanged.
we have-
Ep + h𝜈 = Eq + h𝜈'
or, v' = v + [Ep − Eq]/h
or, v' = v + Δv
From this equation, we have three cases-
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