ndung200790 said:Please teach me this:
Why scattering matrix in relativistic collision still must be unitary?Because in relativistic regime,the probability is not conservable.
Thank you very much in advanced.
Unitarity is a fundamental property of the S-matrix in quantum mechanics. It ensures that the total probability of all possible outcomes of a particle interaction is equal to 1. This means that the S-matrix must conserve probability, and any loss of probability must be accounted for by other interactions or measurements.
Unitarity is directly linked to the conservation of energy and momentum in particle interactions. Since the S-matrix represents the transition of particles from one state to another, it must satisfy energy and momentum conservation laws. A violation of unitarity would lead to a violation of these laws.
If the S-matrix is not unitary, it would mean that there is a loss of probability in the system. This would lead to inconsistencies in the predictions of particle interactions and violate the fundamental laws of quantum mechanics. It would also make it impossible to fully describe and understand the behavior of particles.
Unitarity is a key principle in quantum field theory because it ensures that the theory is consistent and self-contained. It allows for the calculation of scattering amplitudes and cross-sections, which are crucial for making predictions about particle interactions. Without unitarity, the theory would not be able to accurately describe the behavior of particles in a consistent manner.
Unitarity is tested and confirmed in experiments by comparing the predicted and measured probabilities of particle interactions. If the S-matrix is unitary, the total probability of all possible outcomes should add up to 1. Any discrepancies between the predicted and measured probabilities could indicate a violation of unitarity and would require further investigation.