This document contains questions on the topic Phonons that were asked in exams between May 2014 and October 2019. Similar questions are merged into one. If you find a solution, which in your opinion is wrong, incomplete or unsatisfying, please leave a comment in the Teach Center Forum.
Solution
What can Raman spectroscopy tell you about the phonon dispersion relation of some material?
With Raman spectroscopy only phonons can be measured which have a momentum transfer $q$ close to 0. The maximum allowed $k$-value for a scattered phonon is $q_{max} = 2\cdot k_{in}$ ($k_{in}$ is the incident wave vector). For visible laser light the wave vector $k = \frac{2 \pi}{\lambda}$ is in the rage of 10-3Å-1. Compared to the reciprocal distance between the Brillouin zone centre and boundary, this is close to $0$. So the only phonons that can be measured by means of Raman spectroscopy are phonons (very) close to $k = 0$. Those phonons only exist in the optical branch, since for acoustic phonons the energy would be zero for $k = 0$.