ehrenfest
Mar24-08, 09:18 PM
1. The problem statement, all variables and given/known data
This question refers to Kittel's solid-state physics book.
I just do not understand the 1D example on pages 164-65. So, I understand everything until the line "The wavefunctions at k = \pm \pi/a are not the traveling waves \exp(i\pi x/a) or \exp(i\pi x/a) of free electrons."
Kittel tries to explain, but I just don't understand. Is he saying that they will just bounce back and forth between k = pi/a and k = -pi/a by Bragg reflection? How does he know that!?!?!? PLEASE HELP!!
2. Relevant equations
3. The attempt at a solution
This question refers to Kittel's solid-state physics book.
I just do not understand the 1D example on pages 164-65. So, I understand everything until the line "The wavefunctions at k = \pm \pi/a are not the traveling waves \exp(i\pi x/a) or \exp(i\pi x/a) of free electrons."
Kittel tries to explain, but I just don't understand. Is he saying that they will just bounce back and forth between k = pi/a and k = -pi/a by Bragg reflection? How does he know that!?!?!? PLEASE HELP!!
2. Relevant equations
3. The attempt at a solution