Relativity Problem Set 9
... We now consider the case where the total energy of each particle is smaller than the potential height, E < V0 . (a) Write down the wave function ψ(x) in the region x > 0. (b) Recall that for a beam of free particles, ψ ∗ (x)ψ(x) gives the number of particles per unit distance. Using this, discuss wh ...
... We now consider the case where the total energy of each particle is smaller than the potential height, E < V0 . (a) Write down the wave function ψ(x) in the region x > 0. (b) Recall that for a beam of free particles, ψ ∗ (x)ψ(x) gives the number of particles per unit distance. Using this, discuss wh ...
Quantization of the Radiation Field
... of a particle due to its interaction with the electromagnetic field. It was found that if one argued that the bare mass and charge of the particle are also divergent such that the physically observed charge and mass of the particle are finite, then there is no obstacle in the way of giving an unambi ...
... of a particle due to its interaction with the electromagnetic field. It was found that if one argued that the bare mass and charge of the particle are also divergent such that the physically observed charge and mass of the particle are finite, then there is no obstacle in the way of giving an unambi ...
