Does a positron in Beta+ decay interact with electrons outside the nucleus?

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In Beta+ decay, a proton is transformed into a positron within the nucleus, which then interacts with surrounding electrons after being emitted. The positron typically loses energy through collisions with electrons and nuclei before it eventually annihilates with an electron. This process raises questions about whether the annihilation is indistinguishable from electron capture, as both involve interactions between positrons and electrons. Additionally, the discussion touches on the possibility of elastic and inelastic scattering as alternative interactions. Overall, the behavior of emitted positrons and their interactions with electrons is complex and involves various physical processes.
Jabberwockk
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Hi guys,
Well I read about Anti Matter, and i came across the term Anti particle and how a positron is the antiparticle of an electron, so when a particle and an antiparticle meet they're supposed to annihilate each other.
So in case of a Beta+ decay where a proton is converted into a positron in the nuclei, does the postiron enter in contact with the electrons once it's out of the nuclei?
I hope it's not too ambiguous and I'm looking forward to an answer.
 
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Jabberwockk said:
so when a particle and an antiparticle meet they're supposed to annihilate each other.
This is one option that can happen.
Jabberwockk said:
So in case of a Beta+ decay where a proton is converted into a positron in the nuclei, does the postiron enter in contact with the electrons once it's out of the nuclei?
Usually it flies away, loses some energy by "colliding" with electrons and nuclei in the surrounding matter, and only when it lost most of its energy it annihilates with an electron somewhere. Positron emission tomography uses the produced radiation for imaging.
 
I can't think of a valid reason as to why an emitted positron annihilating with a ground state electron isn't physically indistinguishable from electron capture?
 
mfb said:
This is one option that can happen.

Is the other option elastic scattering?

Stephen Hodgson said:
I can't think of a valid reason as to why an emitted positron annihilating with a ground state electron isn't physically indistinguishable from electron capture?

That's beyond what I know xD
 
Stephen Hodgson said:
I can't think of a valid reason as to why an emitted positron annihilating with a ground state electron isn't physically indistinguishable from electron capture?
It's probably a matter of definition, you could study the photon emission (1 or more? energies?) to split it in categories.

Jabberwockk said:
Is the other option elastic scattering?
And inelastic scattering, if the energy is sufficient.
 

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