Physics Asked by Victor Palea on December 31, 2020
Suppose we have a system that has discrete energy levels (e.g. hydrogen atom, potential well) and the stationary solutions for the wave function are $psi_n$. I would assume that there should be a way in which one can model the transition $2rightarrow 1$ by using as initial condition the stationary state $psi_2$ for the Schrodinger equation (temporal version). However I did not manage to find materials that cover this approach.
I assume that the Schrodinger eq. should not be changed (for a spontaneous transition there is no need of a photon to trigger it). From this, it should follow that a stationary wave function should evolve in another one of lower energy, or, if the transition is possible on multiple lower energy levels, I assume that the solution of the Schrodinger eq. is a superposition of the possible lower energy states.
So, in order to conclude the question, are there any materials on this approach that I did not manage to find? If so, I would appreciate suggestions on the topic.
On place to look for information is by reading about Rabi oscillations, which arise when a two-level system is driven by a near-resonant electromagnetic field. For some situations one could find solutions in terms of wave functions that are exact or nearly exact.
More generally, the way to approach this problem is by considering a joint wave function of the two-level system (or atom) and the electromagnetic field. The electromagnetic field is the missing component in the reasoning, and it is also the presence of an infinite number of modes of this field with the energies close to the level splitting that is responsible for the spontaneous emission $$ |1rangle_{atom}prod_k|0rangle_{k} rightarrow |0rangle_{atom}sum_kleft[|1rangle_kprod_{q, qneq k}|0rangle_qright] $$ The infinite number of the field modes here means that one needs to take thermodynamic limit, since otherwise one would expect the wave function revival, when the atom returns to its excited state.
Correct answer by Vadim on December 31, 2020
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