Why Do Muons Decay? Exploring the Reason

In summary, the muon decays into an electron and a neutrino due to the muon having a higher energy level and nature abhorring vacuum. Additionally, the Standard Model includes a term that allows for this decay to occur more frequently. Without this term, the process would still occur but at a much slower rate due to the suppression of Feynman diagrams containing loops.
  • #1
kidsmoker
88
0
In all the books I've been reading it just states that muons are unstable and that they decay into an electron and a neutrino (all be it with a relatively long life-time compared to some other particles). But it says nothing about why the muon actually decays. I assume it's something to do with it wanting to lower its energy but i'd like to know a bit more detail if I could.

Thanks!
 
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  • #2
You are correct, the electron is a ligher particle and the muon can decay to it, and will do it.

http://en.wikipedia.org/wiki/Particle_decay

You can naively think of this as the excited atom: The extited atom has higher mass then the atom in its ground state (since the electron has gained energy so it can occupy a higher state), the excited state can and will decay to the ground state again.
 
  • #3
malawi_glenn said:
You are correct, the electron is a ligher particle and the muon can decay to it, and will do it.

On the same token, Nature abhors vacuum and because of it the quicksilver will ascend the tube.

The good question is "how many centimeters?". Or here, "at what rate?"
 
  • #4
Okay cool, thanks. So unnecessarily high energy levels and vacuum. Anything else? :p
 
  • #5
kidsmoker said:
Okay cool, thanks. So unnecessarily high energy levels and vacuum. Anything else? :p

A key point is that the process occurs (at tree level) because in the Standard Model there is a term that couples those particle together to a W minus boson (the story is actuallly a bit more subtle but that's the basic point). If there was no such term, the process might still occur but it would be much rarer (so the lifetime would be much longer) because it could only occur with Feynman diagrams containing loops which suppress the process.
 

Related to Why Do Muons Decay? Exploring the Reason

1. Why do muons decay?

Muons decay because they are unstable particles. They have a high mass and a short lifetime, which means they can quickly transform into other particles in order to achieve a more stable state.

2. What is the reason for muon decay?

The reason for muon decay is the weak nuclear force. This force is responsible for interactions between subatomic particles and is the reason for many types of radioactive decay.

3. How do we know that muons decay?

We know that muons decay because of experiments that have been conducted in particle accelerators. Scientists have observed the decay process and have measured the lifetime of muons, confirming their unstable nature.

4. What happens when a muon decays?

When a muon decays, it transforms into other particles such as an electron, a neutrino, and an antineutrino. This process is called weak decay and is a natural phenomenon that occurs in unstable particles.

5. Can muon decay be stopped or prevented?

No, muon decay cannot be stopped or prevented. It is a natural process that occurs due to the unstable nature of muons. However, scientists can control the decay rate by manipulating the environment in which muons are present, such as changing the temperature or pressure.

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