Can Gamma Ray Energy Be Reduced to Visible Light Through Material Interaction?

In summary, the conversation discusses the possibility of reducing the energy and frequency of gamma rays to visible light and maintaining it at that level. It is mentioned that gamma rays cannot change their energy, but they can collide with matter and be converted to visible light. However, it is not possible to decrease the frequency of gamma rays to the level of visible light. The process of interaction with matter is mentioned as a way to produce visible light from gamma rays. It is also noted that starlight can remain visible for billions of years due to this process.
  • #1
ryanuser
74
0
Hi, my question is that would it be possible to reduce the energy and frequency of gamma rays to visible light then maintain it at that level?
 
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  • #2
What do you mean with "reduce" and "maintain"? Gamma rays cannot just change their energy, but they can collide with matter and get converted to something else, visible light can be produced in those processes.
 
  • #3
Thanks for your response, even though you may have not understood my question you have answered what I needed to know. Furthermore what are those process?
 
  • #4
Actually what I meant there was after the gamma rays are emitted from an unstable nucleus, can we decrease its frequency so the frequency becomes same as visible light? Can lead be useful?
 
  • #5
You could run away from the gamma ray very quickly, allowing the Doppler shift to shift it to visible light. But the speed at which you would have to be traveling away from the source would be very close to the speed of light.

You'd have to reduce the frequency by about 6 orders of magnitude...which requires velocities at something like .999999999999c ...
 
  • #6
No. And it you did, It wouldn't be Gamma any more.
 
  • #7
ryanuser said:
Thanks for your response, even though you may have not understood my question you have answered what I needed to know. Furthermore what are those process?
Photons change frequency or are absorbed when they interact with matter.

Clearly starlight stays visible for a long time - billions of years in some cases.
 
  • #8
ryanuser said:
Furthermore what are those process?
Interaction with material.
As an example, the gamma rays can transfer a part of their energy to electrons, those electrons lose their energy by passing close to other charged objects (atoms in the material), emitting photons at lower energy. Some of them can be visible light.
 

Related to Can Gamma Ray Energy Be Reduced to Visible Light Through Material Interaction?

1. What is a gamma ray?

A gamma ray is a type of electromagnetic radiation with the shortest wavelength and highest frequency on the electromagnetic spectrum. It is a form of high-energy photon that is emitted from the nucleus of an atom.

2. How is energy reduced in a gamma ray?

The energy of a gamma ray can be reduced through a process called attenuation, which is the gradual decrease in intensity of the radiation as it passes through a medium. This can occur through interactions with other particles or through the emission of lower energy photons.

3. What factors affect the reduction of energy in gamma rays?

The main factors that affect energy reduction in gamma rays include the material the radiation is passing through, the thickness of the material, and the energy of the gamma ray itself. Other factors such as temperature and pressure can also play a role.

4. What are some practical applications of gamma ray energy reduction?

Gamma ray energy reduction is used in a variety of fields, including medical imaging, industrial radiography, and radiation therapy for cancer treatment. It is also used in research and development for materials testing and studying the properties of matter.

5. How is gamma ray energy reduction measured?

The amount of energy reduction in gamma rays can be measured using a device called a Geiger counter, which detects and counts the number of radioactive particles passing through it. Other methods include using a scintillation detector or a spectrometer to measure the energy of the gamma rays.

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