Can (the energy of) a photon be partially absorbed by an electron?

Question

Usually photons are considered to have the possibilty to behave as a quantum. The quantization in an atom is because of the nature of the Coulomb force coupling the electron to the nucleus.

But why can't the photon transfer part of its energy to the electron (enough to transition between two energy levels) and then travel on with reduced energy? After all, it can transfer enough energy to completely ionize the electron ( Compton scattering) so why not just enough to excite the electron between two energy states?

Answer 1

What you are describing is inelastic scattering. An example of this is Raman scattering. This is used in Raman spectroscopy to study low-lying excitations using light that has higher photon energy. Also in Compton scattering there is a scattered photon with lower energy.

(And these processes also happen the other way around. The Raman spectrum has anti-Stokes lines at higher photon energy. Or one can scatter a high-energy electron off a laser photon to produce a gamma.)