Yukawa's Potential: Exploring K & alpha

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In summary, the conversation discussed the constants \alpha and K in Yukawa's potential, with \alpha representing the strength of the force and K representing the inverse of the range of the force. These constants are typically used in particle physics, with \alpha being equivalent to the fine structure constant for the electromagnetic force. The purpose of K is to determine the range of the force, with a higher value indicating a shorter range.
  • #1
Ayame17
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This may seem like a really obvious question to those that know it but...

We looked at Yukawa's potential the other day, in the form [tex]W(r)=\frac{\alpha}{r}*e^{-Kr}[/tex], but our lecturer never explained what K and [tex]\alpha[/tex] actually are! I've looked on the net and all I can find is that they are constants. What does they actually stand for?
 
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  • #2
Roughly speaking, alpha is a constant representing the "strength" of the force... for the EM force it would be the fine structure constant. K is a constant representing the inverse of the range of the force [itex]R\approx \frac{\hbar}{Mc}[/itex]. (M is the mass of the mediating boson). For the EM force R would be infinite, so K would be 0.

Ref: Particle Physics, Martin and Shaw, 3rd Ed.
 
  • #3
Ah, now that makes a lot of sense! Thanks very much!
 

1. What is Yukawa's potential?

Yukawa's potential is a mathematical model used in quantum mechanics to describe the interaction between two particles. It was developed by Japanese physicist Hideki Yukawa in the 1930s and is commonly used to study the strong nuclear force between nucleons.

2. How is Yukawa's potential calculated?

Yukawa's potential is calculated using the formula V(r) = -g^2/r * e^(-kr), where r is the distance between the two particles, g is the strength of the interaction, and k is the range of the interaction. This formula was derived from the Yukawa potential equation, which is a solution to the Klein-Gordon equation.

3. What is the significance of the K and alpha values in Yukawa's potential?

K and alpha are the parameters in the Yukawa potential equation that determine the strength and range of the interaction between two particles. K represents the strength of the interaction, while alpha represents the range or distance at which the interaction becomes negligible. These values are important in understanding the behavior and stability of particles in the strong nuclear force.

4. How is Yukawa's potential used in research and practical applications?

Yukawa's potential is used in research to study the behavior of particles in the strong nuclear force, such as in nuclear physics and particle physics. It is also used in practical applications, such as in the development of nuclear weapons and nuclear energy production.

5. Are there any limitations to Yukawa's potential?

Yukawa's potential is a simplified model and has limitations in accurately describing the strong nuclear force. It does not take into account the effects of quantum chromodynamics, which is the theory that describes the strong interaction between quarks. Additionally, it does not account for the effects of spin and angular momentum in particle interactions.

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