A moving pi-meson decaying into 2 photons - finding their energy

In summary: The most important equation in SR, probably, is:##E^2 = p^2 c^2 + m^2c^4##That holds for both massive and massless particles.One tip for SR problems is to focus on energy and momentum (##E## and ##p##). In general, don't try to use velocity and gamma unless you have to. The conservation equations in this case are:##E_1 + E_2 = E## (where ##E## is the energy of the meson)##p_1 - p_2 = p## (where ##p## is the magnitude of the momentum of the meson etc
  • #1
physconomics
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Homework Statement
How is it possible to find the energies of two photons from a moving pi-meson that has a given rest mass and kinetic energy. It decays in flight and the photons are emitted in paths along the direction of motion of the meson.
Relevant Equations
E' = E(sqrt{1+beta/1-beta})
TotalE{meson} = E{1} + E{2}
I've tried using gammamc^{2} = E1 + E2 but how do i find gamma?? If i try to use the kinetic energy then I just get gammamv^2 = 1gev but i don't know v? very confused
 
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  • #2
physconomics said:
Homework Statement:: How is it possible to find the energies of two photons from a moving pi-meson that has a given rest mass and kinetic energy. It decays in flight and the photons are emitted in paths along the direction of motion of the meson.
Homework Equations:: E' = E(sqrt{1+beta/1-beta})
TotalE{meson} = E{1} + E{2}

I've tried using gammamc^{2} = E1 + E2 but how do i find gamma?? If i try to use the kinetic energy then I just get gammamv^2 = 1gev but i don't know v? very confused

What else is conserved apart from energy?
 
  • #3
physconomics said:
but how do i find gamma??

Maybe I have misunderstood something, but can't you find ##\gamma## from

physconomics said:
a moving pi-meson that has a given rest mass and kinetic energy.
 
  • #4
PeroK said:
What else is conserved apart from energy?
Well, okay, so in the meson rest frame the equations would be

Momentum: 0 = hf1 + hf2
Conservation of Energy: 135MeV = hf1 + hf2

Right? But then this clearly contradicts itself. I don't know what I'm missing
 
  • #5
physconomics said:
Well, okay, so in the meson rest frame the equations would be

Momentum: 0 = hf1 + hf2
Conservation of Energy: 135MeV = hf1 + hf2

Right? But then this clearly contradicts itself. I don't know what I'm missing

Momentum is a vector.
 
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  • #6
PeroK said:
Momentum is a vector.
Yeah but the questions states that the two photons are emitted along the direction of motion of the meson? Wouldn't this mean they are both transmitted in the positive direction?
 
  • #7
physconomics said:
Yeah but the questions states that the two photons are emitted along the direction of motion of the meson? Wouldn't this mean they are both transmitted in the positive direction?
No. It means they are not emitted at an angle to the original direction.
 
  • #8
PeroK said:
No. It means they are not emitted at an angle to the original direction.
Ah okay.
So it would become:
0 = hf1cosx1 - hf2cosx2
sinx1 = sinx2
so f1cosx1 = f2cosx2?
Then E = 2hf = 135Mev so f = =1.63x10^22 and lambda = 6.14x10^-23

But then how would I get this in the lab frame when I don't know lambda?
 
  • #9
physconomics said:
Ah okay.
So it would become:
0 = hf1cosx1 - hf2cosx2
sinx1 = sinx2
so f1cosx1 = f2cosx2?
Then E = 2hf = 135Mev so f = =1.63x10^22 and lambda = 6.14x10^-23

But then how would I get this in the lab frame when I don't know lambda?

There's no reason to complicate things by using the rest frame of the meson. Can you write down the conservation of energy and momentum equations in the lab frame?
 
  • #10
PeroK said:
There's no reason to complicate things by using the rest frame of the meson. Can you write down the conservation of energy and momentum equations in the lab frame?
This is kind of what I'm confused about, how would I get the momentum of the meson in the lab frame?
 
  • #11
physconomics said:
This is kind of what I'm confused about, how would I get the momentum of the meson in the lab frame?

Momentum is related to mass and energy. Do you know that equation?
 
  • #12
PeroK said:
Momentum is related to mass and energy. Do you know that equation?
Well, yeah, but wouldn't it have to be relativistic?
so something like gamma mu = hf1/c + hf2/c
And then energy would be
E = 1135Mev = hf1+hf2
I've found gamma as 8.407 from the KE but how about v?
Sorry I'm finding special relativity quite difficult
 
  • #13
physconomics said:
Well, yeah, but wouldn't it have to be relativistic?
so something like gamma mu = hf1/c + hf2/c
And then energy would be
E = 1135Mev = hf1+hf2
I've found gamma as 8.407 from the KE but how about v?
Sorry I'm finding special relativity quite difficult

The most important equation in SR, probably, is:

##E^2 = p^2 c^2 + m^2c^4##

That holds for both massive and massless particles.

One tip for SR problems is to focus on energy and momentum (##E## and ##p##). In general, don't try to use velocity and gamma unless you have to. The conservation equations in this case are:

##E_1 + E_2 = E## (where ##E## is the energy of the meson)

##p_1 - p_2 = p## (where ##p## is the magnitude of the momentum of the meson etc.)

Can you relate the magnitude of the momentum of a photon to its energy?
 

Related to A moving pi-meson decaying into 2 photons - finding their energy

What is a pi-meson?

A pi-meson, also known as a pion, is a subatomic particle that is made up of a quark and an antiquark. It can have a positive, negative, or neutral charge, and is unstable, decaying into other particles shortly after being formed.

How does a pi-meson decay into 2 photons?

A pi-meson can decay into two photons through the process of annihilation. This occurs when the pi-meson and its corresponding antiparticle, an anti-pi-meson, collide and are converted into energy in the form of two photons.

What is the energy of the two photons produced by the decay of a pi-meson?

The energy of the two photons produced by the decay of a pi-meson is equal to the mass of the pi-meson, as determined by Einstein's famous equation E=mc². This energy is split evenly between the two photons.

How is the energy of the two photons measured?

The energy of the two photons can be measured using a variety of methods, including calorimetry, which measures the amount of energy absorbed by a material when the photons pass through it, or using a particle detector, which can detect and measure the energy of individual particles.

Why is it important to study the decay of a pi-meson into 2 photons?

Studying the decay of a pi-meson into 2 photons can provide valuable insights into the fundamental properties of matter and the forces at work in the universe. It can also help us better understand the behavior of subatomic particles and their interactions, which has important implications in fields such as particle physics and cosmology.

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