Why point particle interaction has UV divergence,but string interaction does not?

In summary: However, they are not intractable. In summary, the UV divergences in point particle interaction (QTF theory) can be avoided in string interaction due to the integration over the moduli space of Riemann surfaces, which is a more complex process. This cannot be expressed in terms of a simple momentum cutoff and includes concepts like modular invariance. The scattering of D0-branes, which are pointlike objects, can bring back short-distance divergences, but they are not intractable.
  • #1
ndung200790
519
0
Please teach me this:
Why point particle interaction(QTF theory) has UV divergences,but string interaction does not have UV divergences.Because I think that calculating the probability amplitude of a process,we must sum(or integrate) over all possible value of momentum.So how we avoid the UV divergence?
Thank you very much in advance.
 
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  • #2
ndung200790 said:
Because I think that calculating the probability amplitude of a process,we must sum(or integrate) over all possible value of momentum

That is true in particle QFT, but not in string theory. What replaces momentum integration is an integration over the moduli space ("shapes") of Riemann surfaces, and this is substantially different to particle theory. One may loosely say there appears a UV cutoff for the momentum integration. Actually things are more complicated and the stringy way of integration is more than a cutoff, and thus cannot be expressed in terms of particle QFT supplemented by a naive momentum cutoff. Pertaining to the geometry of Riemann surfaces, there are notions like modular invariance which have no analog in particle physics, so string theory is "more" than just a collection of infinitely many particle theories. That's why it can do things that cannot be achieved in particle QFT.
 
  • #3
One thing I have always wondered in this context is what happens when one talks about the scattering of D0-branes, which are pointlike objects. In that case, no smearing out of the interaction vertices occurs, as it does for extended objects like strings. So doesn't this bring short-distance divergences back into the game?
 
  • #4
Orbb said:
One thing I have always wondered in this context is what happens when one talks about the scattering of D0-branes, which are pointlike objects. In that case, no smearing out of the interaction vertices occurs, as it does for extended objects like strings. So doesn't this bring short-distance divergences back into the game?

Yes, from open strings stretched between the branes, which become massless when the branes coincide. So in a sense these are on-shell divergences.
 

1. What is a point particle?

A point particle is a theoretical concept in physics that is used to represent a particle with no physical size or extent. It is typically used in mathematical models to simplify calculations and understand the behavior of particles in a system.

2. What is UV divergence?

UV divergence refers to a mathematical phenomenon in quantum field theory where calculations for the behavior of particles at very high energies (ultraviolet) produce infinite or undefined results. This is often seen as a limitation of the theory and can lead to inaccuracies in predictions.

3. Why does point particle interaction lead to UV divergence?

This is because point particles do not have a defined size or structure, and therefore, the equations used to describe their interactions at high energies break down. This results in infinite or undefined calculations, leading to UV divergence.

4. How is string interaction different from point particle interaction?

String interaction is based on the theory of string theory, which proposes that particles are not point-like but instead have a tiny one-dimensional structure. This structure allows for more precise calculations at high energies, avoiding the issues of UV divergence that arise in point particle interactions.

5. Does the lack of UV divergence in string interaction make it a more accurate theory?

While the lack of UV divergence in string interaction is certainly a significant advantage over point particle interaction, it does not necessarily make it a more accurate theory. String theory is still a highly debated and complex theory, and its predictions have yet to be fully tested and confirmed by experiments.

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