Unlocking the Mystery of Atoms Releasing Photons: A Scientific Exploration

In summary, atoms can release photons in specific scenarios when electrons drop from higher energy levels to lower energy levels, emitting a photon with energy that matches the difference between the two levels. The nucleus can also emit photons, but due to the higher energy levels of particles in the nucleus, the emitted photon has much more energy. This energy comes from binding energy. The cause of an electron giving off excess energy is simply the possibility of changing energy levels. This is not a classical physics concept, as photons and energy levels are governed by quantum mechanics.
  • #1
Physicist50
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I was wondering, after discovering that in particular scenarios atoms can release photons, how they do it? Is some of the energy stored in the nucleus converted into light energy, or is it something else?
 
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  • #2
Typically it is that the electrons drop from higher energy levels to lower energy levels. In order to do so they have to get rid of the excess energy, and can do so by emitting a photon whose energy exactly matches the difference in energy levels. So if the difference between the higher energy level and lower energy level is 2.0 electronvolts, a photon with 2.0 electronvolts will be emitted, which is within the visible range in the orange-yellow end of the spectrum.

The nucleus can do the same thing however, but because the energy levels for particles in the nucleus are MUCH higher, the emitted photon has MUCH more energy, typically above 100,000 electronvolts.

The key thing to understand is that the energy comes from BINDING energy.
http://en.wikipedia.org/wiki/Binding_energy
 
  • #3
Thanks Drakkith, but what would cause an electron to suddenly give off a spurt of excess energy?
 
  • #4
when a photon gets absorbed by atom ,it just disappear (annihilation operator). when it comes back it only mean a creation of photon(it is not inside the atom).
 
  • #5
Physicist50 said:
Thanks Drakkith, but what would cause an electron to suddenly give off a spurt of excess energy?

Electrons that are in higher energy levels, that also have lower energy levels available to them, simply have a chance of changing levels and emitting energy. You could say they "want" to be in the lowest energy state.
 
  • #6
this is not classical physics as photons are a quantum concept, same with energy levels.
 
  • #7
chill_factor said:
this is not classical physics as photons are a quantum concept, same with energy levels.

No worries, a mod will move the thread if they feel like it. :biggrin:
 

1. What are atoms releasing photons?

Atoms are tiny particles that make up all matter. They contain a nucleus made of protons and neutrons, and electrons orbiting around the nucleus. When an atom becomes excited, it releases energy in the form of a photon, which is a packet of electromagnetic radiation.

2. How do atoms release photons?

Atoms release photons when their electrons become excited and jump to a higher energy level. This can happen through various processes such as heat, light, or collisions with other particles. When the electron returns to its original energy level, it releases the extra energy in the form of a photon.

3. What is the significance of atoms releasing photons?

Atoms releasing photons is a fundamental process in the field of quantum mechanics. It allows us to understand and study the behavior of matter and energy at the atomic level. Additionally, photons play a crucial role in many technological applications such as lasers, solar panels, and communication devices.

4. How are photons emitted by atoms detected and measured?

Photons emitted by atoms can be detected and measured using various instruments such as spectrophotometers, photomultiplier tubes, and photon counters. These devices use principles of quantum mechanics to detect and measure the energy and frequency of photons.

5. Can atoms release photons in a vacuum?

Yes, atoms can release photons in a vacuum. In fact, photons are often emitted in a vacuum since there are no other particles present to absorb the energy released by the excited atoms. This phenomenon is commonly observed in outer space, where there is a significant amount of vacuum.

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