A free electron cannot absorb a photon and conserve energy and momentum. For a bound electron, the atom absorbs some of the energy and momentum..pallidin said:I've heard that atomically bound electrons can potentially "absorb" an incoming photon, whereas a "free" electron has no such potential.
Why is this?
Also, can rapidly alternating un-bound electrons emit photons?
Free electrons are electrons that are not attached to any atom or molecule and are free to move within a material. Bound electrons, on the other hand, are electrons that are tightly bound to an atom or molecule and cannot move freely.
Free electrons are responsible for the conductivity of a material. When a voltage is applied, free electrons can move in response to the electric field, carrying charge and thus allowing the material to conduct electricity.
Photon absorption occurs when a photon, or a particle of light, is absorbed by an atom or molecule. This process can result in the excitation of an electron, allowing it to move to a higher energy level. This is important in various scientific fields such as optics, solar energy, and photosynthesis.
Free electrons can absorb or emit photons through the process of electron-photon interactions. When a photon is absorbed, it transfers its energy to the electron, causing the electron to move to a higher energy level. When a photon is emitted, the electron releases its excess energy in the form of a photon.
Yes, bound electrons can also interact with photons. In fact, most interactions between photons and matter involve bound electrons. When a photon is absorbed by a bound electron, the electron may become excited and jump to a higher energy level. When the electron returns to its original energy level, it emits a photon with the same energy as the absorbed photon.