Question about Neutrino oscillation

So, while we can calculate the transformation matrix and the relative mass differences, we cannot determine the absolute mass values without additional information. In summary, we can obtain the mass eigenstates and weak eigenstates through diagonalizing the mass matrix, but the mass eigenvalues cannot be determined solely from the mixing angles and mass squared differences. The relation between the mass eigenstates and weak eigenstates is known because of measurements of the mixing angles in oscillation experiments. However, the absolute mass values cannot be calculated without additional information.
  • #1
s3d18
2
0
i would like to ask a few questions about Neutrino oscillation

1) How can i calculate/obtain the mass eigenstates and weak eigenstates of neutrino
if we can get those, then how come we cannot obtain the mass eigenvalues.

2) why we know the relation between mass eigenstates and weak eigenstates (the relation involve PMNS matrix) in the beginning.

Thank you.
 
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  • #2
I'm not sure I understand what your asking.

1) When you diagonalize a mass matrix (or any matrix for that matter) you have the eigenvalues ( mass eigenvalues) and the transformation matrix from the mass eigenstates basis to the weak eigenstate basis (which includes the mixing angles and pssible phases).

The mass eigenvalues are independent of the mixing angles. Therefore knowing the mixing angles (which have been measured) doesn't determine the masses.


2) we know the relation because we measure the mixing angles in oscillation experiments ( to a certain accuracy)
 
  • #3
ofirg said:
I'm not sure I understand what your asking.

1) When you diagonalize a mass matrix (or any matrix for that matter) you have the eigenvalues ( mass eigenvalues) and the transformation matrix from the mass eigenstates basis to the weak eigenstate basis (which includes the mixing angles and pssible phases).

The mass eigenvalues are independent of the mixing angles. Therefore knowing the mixing angles (which have been measured) doesn't determine the masses.


2) we know the relation because we measure the mixing angles in oscillation experiments ( to a certain accuracy)

Thank you.
So, we cannot obtain the mass eigenvalues through the calculation?
 
  • #4
So, we cannot obtain the mass eigenvalues through the calculation?


We can't calculate the masses from the parameters measured so far (mixing angles and mass squared differences). The absolute mass scale is an additional independent parameter.
 

Related to Question about Neutrino oscillation

1. What is neutrino oscillation?

Neutrino oscillation is a phenomenon observed in experiments where neutrinos, which are subatomic particles with no charge, change from one type (or "flavor") to another as they travel through space. This is due to the fact that neutrinos have mass, which was not originally accounted for in the Standard Model of particle physics.

2. How was neutrino oscillation discovered?

Neutrino oscillation was first observed in the late 1990s through experiments using solar and atmospheric neutrinos. These experiments detected a decrease in the expected number of neutrinos, suggesting that they had changed flavor during their journey from the Sun or Earth's atmosphere to the detector.

3. What is the significance of neutrino oscillation?

The discovery of neutrino oscillation has had a significant impact on our understanding of particle physics and the properties of neutrinos. It also has important implications for astrophysics, as it helps us understand the behavior of neutrinos in space and their role in cosmic phenomena.

4. What are the different types of neutrino oscillation?

There are three types of neutrino oscillation: electron neutrino to muon neutrino, electron neutrino to tau neutrino, and muon neutrino to tau neutrino. These oscillations are described by different mixing angles, which determine the probability of a neutrino changing flavor.

5. What are the current challenges in studying neutrino oscillation?

One of the main challenges in studying neutrino oscillation is the fact that neutrinos are notoriously difficult to detect and study. They interact very weakly with matter, making them difficult to capture and measure. Additionally, there is still much we do not know about the properties and behavior of neutrinos, which makes it challenging to fully understand and predict their oscillation patterns.

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