Gamma Rays: Finite Range in Water?

In summary, high energy gamma rays have a finite range in water due to their exponential decay and interactions with matter, but in empty space they have an infinite range.
  • #1
lavster
217
0
i was told that high emergy gamma rays had a finite range in water. how can this be if they are both massless and chargeless. is it because they are absorbed/produce electrons/positrons

thanks
 
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  • #2
The intensity of the gamma rays decays exponentially, so they don't really have a well-defined range (as opposed to charged particles, for example alpha and beta particles). In the limit of infinity the intensity goes to zero, but for a fixed range there will be a non-zero probability that some photons are still there.

When the photons interact with matter, they will do it in three ways: Photoelectric absorbtion (where the photon is absorbed by an electron), Compton scattering (elastic scattering between a photon and an electron) and pair production (where the photon annihilates into an electron and a positron, can only happen close to a nucleus). For lower energies of the gamma rays photoelectric absorbtion is dominant, for medium energies Compton scattering and for high energies pair production.
 
  • #3
When traveling through a medium the gamma rays will have a finite lifetime and range. In completely empty space a gamma ray photon has effectively an infinite range.
 

1. What are gamma rays?

Gamma rays are a type of electromagnetic radiation with a very high frequency and short wavelength. They are produced by the decay of atomic nuclei and can penetrate most materials, including water.

2. How do gamma rays behave in water?

Gamma rays have a finite range in water, meaning they can only travel a certain distance before being absorbed or scattered. This range is influenced by the energy of the gamma ray and the composition of the water.

3. What is the significance of gamma rays having a finite range in water?

The finite range of gamma rays in water is important in radiation therapy, as it allows for precise targeting of cancer cells while minimizing damage to surrounding healthy tissue.

4. How can we measure the range of gamma rays in water?

The range of gamma rays in water can be measured using a variety of techniques, such as Monte Carlo simulations, experimental measurements, and theoretical calculations. These methods take into account factors such as the energy and type of the gamma ray, as well as the properties of the water medium.

5. How can we protect ourselves from gamma rays in water?

The best way to protect oneself from gamma rays in water is to limit exposure. For example, wearing protective clothing and equipment can reduce the amount of gamma rays reaching the body. It is also important to follow safety guidelines and regulations when working with gamma ray sources in water.

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