Interaction time between charged particles

In summary: Elastic scattering is caused by the kinetic energy of the particles, while ionization is caused by the electrostatic energy.
  • #1
oksuz_
70
3
Hi,

I was wondering that if there is some kind of interaction time between two charged particles. Imagine an electron shoot to ionize an atom. This electron interacts one of the electrons in the atom. Does the ionization depend on the velocity of the incoming electron? Is it possible that when it is slower than a certain velocity, it causes ionization, however, after this certain velocity, it does not cause ionization? To me, there should be enough time for a certain distance between the two in order to cause ionization. If the incoming electron is too fast, there would not be enough time for complete interaction which causes ionization.

Any comment would be appreciated.
 
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  • #2
oksuz_ said:
Does the ionization depend on the velocity of the incoming electron?
Yes, as the velocity determines the energy, for example. In general higher velocities are more likely to lead to ionization, and if the velocity is too low you cannot ionize an atom at all.

There is no "minimal ionization time" or anything like that.
 
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Likes oksuz_
  • #3
mfb said:
Yes, as the velocity determines the energy, for example. In general higher velocities are more likely to lead to ionization, and if the velocity is too low you cannot ionize an atom at all.

There is no "minimal ionization time" or anything like that.
I was just trying to understand why slower charged particles cause more ionization than those faster.

When a proton and a deuteron were hit by neutrons, the energy transfer would be lower for the neutron-deuteron collision since deuteron is heavier. So, there would be two like & equal charged particles with different energies. In that situation, which particle can cause more ionization?

thank you.
 
  • #4
oksuz_ said:
I was just trying to understand why slower charged particles cause more ionization than those faster.
Well, it depends on the energy range. At low energies more energy means more ionization, then there is a range where it goes down, and then there is a range where it goes up again.

oksuz_ said:
When a proton and a deuteron were hit by neutrons, the energy transfer would be lower for the neutron-deuteron collision since deuteron is heavier. So, there would be two like & equal charged particles with different energies. In that situation, which particle can cause more ionization?
Ionization and elastic scattering are different processes.
 

Related to Interaction time between charged particles

What is meant by interaction time between charged particles?

The interaction time between charged particles refers to the amount of time it takes for two charged particles to interact with each other, either through attraction or repulsion. This time can vary depending on the distance between the particles, their charges, and the medium in which they are interacting.

How is the interaction time between charged particles calculated?

The interaction time between charged particles is calculated using the Coulomb's Law, which states that the force of interaction between two charged particles is directly proportional to the product of their charges and inversely proportional to the square of the distance between them. By rearranging this equation, the interaction time can be determined.

What factors affect the interaction time between charged particles?

The interaction time between charged particles can be affected by several factors, including the distance between the particles, their charges, the medium in which they are interacting, and any external forces or fields acting on the particles.

How does the medium affect the interaction time between charged particles?

The medium in which the charged particles are interacting can affect the interaction time by changing the strength of the electric field between them. A medium with a higher dielectric constant, such as water, can weaken the electric field and increase the interaction time, while a medium with a lower dielectric constant, such as air, can strengthen the electric field and decrease the interaction time.

Why is the interaction time between charged particles important in scientific research?

The interaction time between charged particles is important in scientific research because it helps us understand the behavior of particles at the atomic and subatomic level. It is also crucial in fields such as particle physics, plasma physics, and astrophysics, where interactions between charged particles play a significant role in the behavior of matter and energy in the universe.

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