Suppose a particle decays to three other particles. The masses of all particles are assumed to be known and we work in the rest frame of the parent particle. So there are 12 parameters for this because of the 4-momenta of the three daughter particles. Now the constraint of momentum conservation imposes 4 constraints and reduces the number of parameters to 8. Further, the energy-momentum relation for each particle imposes three more constraints and reduces the number of parameters to 5. Are there any other constraints that reduce the number of parameters to 2?

Alvin Parks

Alvin Parks

Answered question

2022-11-03

Suppose a particle decays to three other particles. The masses of all particles are assumed to be known and we work in the rest frame of the parent particle. So there are 12 parameters for this because of the 4-momenta of the three daughter particles. Now the constraint of momentum conservation imposes 4 constraints and reduces the number of parameters to 8. Further, the energy-momentum relation for each particle imposes three more constraints and reduces the number of parameters to 5. Are there any other constraints that reduce the number of parameters to 2?

Answer & Explanation

Deanna Sweeney

Deanna Sweeney

Beginner2022-11-04Added 14 answers

Well, yes and no. There is a set of Euler angles that describes the orientation of the product system in space, and the remaining two parameters are all that is needed to find the final | p | s.
- It's clearest to me when I am writing Monte Carlo generators. You do the physics in some conveniently defined coordinate system and then throw the dice to randomly assign a orientation for the system. Like this.
- Choose one of the daughter particles, call the direction of it's three momentum the z ^ axis. You can still describe all possible relationships between the three products, so there is no loss of generality.
- Insist that the three momentum of the second daughter lies in the x ^ - z ^ plane. Again, there is no loss of generality.
- At this point you can use, say, θ 1 , 2 and θ 1 , 3 (the angles between the particles) to parameterize the physics.)
- Choose ϕ { 0 , 2 π }, cos ( θ ) { 1 , 1 }, and ψ { 0 , 2 π } (all uniformly) to describe the orientation of the whole system in space.

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