Why cant we tell the mass of electron neutrinos, mu neutrinos, and tau

In summary, the mass of electron neutrinos, mu neutrinos, and tau neutrinos cannot be measured accurately due to their low interaction rates and negligible mass compared to their kinetic energy. The only way to measure their mass is through flavor oscillation, but this method is only sensitive to the difference in masses between the neutrinos. Upcoming experiments may be able to determine the neutrino mass scale, but even then, the individual masses of the three types of neutrinos cannot be determined as they are superpositions of different mass states.
  • #1
Waveparticle
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Why can't we tell the mass of electron neutrinos, mu neutrinos, and tau neutrinos?
 
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  • #2


First, neutrinos rarely interact, so scientists have to go to some pretty big extremes to observe them compared to electrons, muons, etc. Secondly, neutrinos are so light that mc^2 << KineticEnergy for essentially all lab experiments that measure them. So the mass is essentially "negligible". If it wasn't for flavor oscillation, we mave have very well never detected that they even have a mass. Unfortunately, this phenomenom is only sensitive to the difference is masses between the neutrinos ... so we can't use it to measure their masses absolutely.

I think there are some experiments (can someone correct me?) planned that will be able to fix the neutrino mass scale. With enough statistics, hopefully they will succeed.
 
  • #3


In fact neutrino oscillations are only sensitive to the difference of the squares of the masses.

Also, even once we've been able to measure neutrino masses individually, we still won't be able to say anything about the masses of the electron, muon, and tau neutrinos because, those states do not have definite mass. The whole point with neutrino oscillations is that one of these state can turn into another specifically because they aren't the states of definite mass, but, rather, are superpositions of the mass states.
 

Why can't we tell the mass of electron neutrinos, mu neutrinos, and tau?

The reason why we cannot accurately measure the mass of these types of neutrinos is because they are incredibly lightweight and do not interact with matter very often. This makes it difficult for scientists to detect and measure their mass.

What methods have been used to try and measure the mass of neutrinos?

Scientists have used a variety of methods to try and measure the mass of neutrinos, including studying their effects on cosmic rays, analyzing data from particle accelerators, and observing the shape of the universe to look for patterns that may be influenced by neutrino mass.

Why is knowing the mass of neutrinos important?

Knowing the mass of neutrinos is important because it can help us better understand the fundamental properties of the universe, such as the origin of matter and the structure of the early universe. It can also help in the development of new theories and models in physics.

Are there any theories about the mass of neutrinos?

Yes, there are several theories about the mass of neutrinos, including the Standard Model of Particle Physics which predicts that neutrinos have no mass, and the Seesaw Mechanism which suggests that neutrinos have a tiny mass that could potentially be measured in the future.

Is there ongoing research to try and measure the mass of neutrinos?

Yes, there is ongoing research and experimentation being conducted to try and measure the mass of neutrinos. Scientists are using advanced technologies and techniques to improve detection and measurement methods in hopes of finally determining the mass of these elusive particles.

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