Exploring Half Lives of Pions in Nuclei

In summary, the conversation discusses the existence and properties of pions in high Z nuclei and their behavior inside potential wells. There is a possibility of creating stable nuclei containing pions, but no evidence has been found so far. The half-lives of pions are slightly increased when inside a nucleus, but not significantly. The charge of the pion does not affect its interaction due to the strong force.
  • #1
Kevin McHugh
318
164
Do they exist in nature, i.e. in high Z nuclei, or are they only created in scattering experiments? Are the half lives increased in bound states? Why do positive pions get trapped in the potential well as well as negative pions?
 
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  • #2
The energy gain of a pion inside the nucleus is comparable to that of a neutron or proton. Usually it's more because the pion doesn't pay exchange energy. But it's still one order or magnitude less than what would be required to make the pion stable.
People conjectured Strange Matter where baryons containing strange quarks are incorporated into an extremely heavy nucleus, which could stabilize both the nucleus and the strange baryons. But so far no one has found any of that stuff.
 
  • #3
TTT. Thanks for the reply Gigaz, but that doesn't really answer my questions.
 
  • #4
There are no stable nuclei that contain pions. All known stable nuclei contain only neutrons and protons.
The half-lifes of pions should be somewhat larger when the pion is inside a nucleus, but not by more than a few percent.
The charge of the pion doesn't matter because it doesn't matter for protons. The interaction is always attractive because it is mediated via the strong force.
 
  • #5
Thanks Gigaz. That helps a lot.
 

1. What are pions and why are they important in studying nuclei?

Pions are subatomic particles that are part of the hadron family. They are important in studying nuclei because they are the lightest mesons and therefore play a crucial role in the strong nuclear force that holds the nucleus together.

2. How are half lives of pions measured in nuclei?

The half life of a pion in a nucleus can be measured through experimental methods, such as scattering experiments or decay studies. In these experiments, the number of pions in a given nucleus is measured over time to determine the decay rate.

3. What factors affect the half life of pions in nuclei?

The half life of pions in nuclei can be affected by various factors, including the size and shape of the nucleus, the number of nucleons in the nucleus, and the energy of the pion. Additionally, the strength of the strong nuclear force can also impact the half life.

4. How does the study of pion half lives in nuclei contribute to our understanding of nuclear physics?

Studying the half lives of pions in nuclei provides valuable insights into the strong nuclear force and how it behaves within the nucleus. It also helps us better understand the structure and properties of nuclei, which is crucial for advancements in nuclear physics and technology.

5. What are some potential applications of understanding pion half lives in nuclei?

Understanding pion half lives in nuclei has various potential applications, including improving our knowledge of nuclear reactions and processes, developing more efficient nuclear energy production, and enhancing our understanding of stellar nucleosynthesis in the universe.

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