Stability of Binary System with Anti-Particle Circulation in Quantum Physics

In summary, the conversation discusses the possibility of an electron and positron forming a stable particle called positronium. However, it is short-lived due to quantum field interactions between the two particles leading to annihilation. The Schrödinger’s equation for a hydrogen atom can be applied to positronium by taking into account the reduced mass of the particles. However, calculating the annihilation rate requires the use of quantum field theory.
  • #1
Will_C
Hi,
I have a question about anti-particle.
In the modern physics, we "know" (I don't think we really know it) the reason, why the shell electron did not collapse into its ion core, because of quantum theory.
But is it possible a electron "circulate" a positron without annihilation. Is there any possibility for such particle being stable?
Thx.
Will.
 
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  • #3
Thx James,
Thank you for your suggestion and guiding. According to the website: "quantum field interactions between the positron and electron cause positronium to be unstable."
How does it work? Is there any simple concept to explaine this (I have not get start on QEM yet)?

Will.
 
  • #4
A small part of the wave functions of the electron and positron overlap.
This leads to eventual annihilation of the pair, producing two, and more rarely three, photons.
 
  • #5
Thx Meir!
When I pick up a textbook (modern physics), and look for the Schrödinger’s equation for Hydrogen atom. The equation of that is regardless anything about hydrogen (such as mass of hydrogen) except the charge. Thus, what I want is to replace the hydrogen with a positron and the Schrödinger’s equation doesn't any changes.
SO, is it too simple to counter with atom by QM?

Will.
 
  • #6
You can use simple QM to get the WF, but you have to take into account the reduced mass of the particles. Just put in m/2.
Calculation of the annihilation rate needs QFT to convert the e-positron pair into photons.
 

What is a binary system in quantum physics?

A binary system in quantum physics refers to a system that consists of two particles, such as an electron and a positron, that are bound together by their mutual attraction. In this system, the particles are in constant motion around each other and their positions and velocities are described by quantum mechanics.

What is an anti-particle?

An anti-particle is a particle that has the same mass as its corresponding particle, but with an opposite charge. For example, an electron has a negative charge, while its anti-particle, the positron, has a positive charge. When an anti-particle and its corresponding particle come into contact, they annihilate each other and release energy.

What is circulation in quantum physics?

In quantum physics, circulation refers to the movement or flow of particles or energy within a system. This can also refer to the path or trajectory that a particle takes as it moves through space and time.

How does anti-particle circulation affect the stability of a binary system?

The circulation of anti-particles within a binary system can have a significant impact on its stability. As anti-particles and particles move in opposite directions, their mutual attraction can cause the system to become unstable and eventually break apart. However, in some cases, anti-particle circulation can actually increase the stability of a binary system by counteracting the disruptive effects of particle circulation.

What are the potential applications of studying the stability of binary systems with anti-particle circulation?

Studying the stability of binary systems with anti-particle circulation has potential applications in various fields, including quantum computing and particle physics. This research can help us better understand the behavior of particles and their interactions, which can lead to advancements in technology and our understanding of the universe.

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