Quick Question About Photon Entering Atom

In summary, the conversation discusses whether a photon must have the exact energy to reach the next energy level in an atom or if it can be absorbed and store the excess energy for future use. The conclusion is that for the photon to be absorbed, the change in energy levels must match the photon's energy, but excess energy can go into other processes such as molecular vibrations. This concept is related to fluorescence, Raman scattering, and Stokes and anti-Stokes shifts.
  • #1
Linday12
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0

Homework Statement


A photon enters an atom in the ground state. I have the energies to get to the next level.

My question is, does the photon have to be the exact energy to get to the next level before it is absorbed, or can the atom absorb it and go up those few levels and.. sort of store the extra energy until it either goes back to ground state and emits the photon or moves up again?

Example: A photon is entering that has an energy of 5.86 eV
E3 ----------- 5.96eV

E2 ----------- 5.74eV

Ground state -- 0 eV

Can the photon be absorbed, or would it have to be either 5.74 eV or 5.96 eV to be absorbed?
*Note, those numbers were made up and probably violate many laws of physics. :)
 
Last edited:
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  • #2
No for the photon to be absorbed, the change in the energy levels must be the same as the energy the photon possesses.
 
  • #3
If the excess energy can go into something else, like molecular vibrations, then it is possible that it could get absorbed. This would be the idea behind fluorescence, Raman scattering, Stokes and anti-Stokes shifts.
 

Related to Quick Question About Photon Entering Atom

1. How does a photon enter an atom?

When a photon interacts with an atom, it can either be absorbed or scattered. In the case of absorption, the photon's energy is transferred to the atom, causing an electron to jump to a higher energy level. In the case of scattering, the photon is deflected in a different direction, but does not transfer its energy to the atom.

2. What happens to the photon once it enters the atom?

The photon's energy is either absorbed or scattered, depending on the interaction with the atom. If the photon is absorbed, the atom may become excited or ionized. If the photon is scattered, it may continue to travel in a different direction with a lower energy.

3. Can a photon enter an atom without any interaction?

No, a photon cannot enter an atom without any interaction. Photons are electromagnetic waves and interact with matter through the electric field of the atom's electrons. This interaction is necessary for a photon to enter an atom.

4. What factors affect the interaction between a photon and an atom?

The energy of the photon, the atomic structure of the atom, and the angle at which the photon approaches the atom all play a role in the interaction between a photon and an atom. The energy of the photon must match the energy difference between an electron's energy levels in order for absorption to occur. The atomic structure can affect the probability of scattering. And the angle of approach can affect the likelihood of absorption or scattering.

5. How does the interaction between a photon and an atom impact the atom's behavior?

The interaction between a photon and an atom can impact the atom's behavior by changing its energy state. If the photon is absorbed, an electron may jump to a higher energy level, causing the atom to become excited or ionized. This can lead to changes in the atom's chemical or physical properties. If the photon is scattered, the atom's behavior may not be significantly affected, but the direction and energy of the photon may be altered.

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