1 / 7

Thermal properties of Solids: phonons

a. m. n. n+1. n-1. p/ a. p/ a. 0. k. Thermal properties of Solids: phonons. w. k 2. k 1. Brillouin zone. k 1. k 2. w. p/ a. p/ a. 0. k. Displacement of lattice point. First Brillouin zone is range of wave vectors k : - p/ a £ k £ p/ a. m. m. M. M. 2n. 2n+1. 2n+2.

kesler
Download Presentation

Thermal properties of Solids: phonons

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. a m n n+1 n-1 p/a p/a 0 k Thermal properties of Solids:phonons w

  2. k2 k1 Brillouin zone k1 k2 w p/a p/a 0 k Displacement of lattice point First Brillouin zone is range of wave vectors k: -p/a£ k £ p/a

  3. m m M M 2n 2n+1 2n+2 2n-1 a/2 a/2 Longitudinal vibration of a linear chain of two masses

  4. Vibration of a linear chain of two masses w w3 optical w2 w1 acoustic k 0 -2p/a 2p/a 1st critical frequency: heavy masses only moving, light masses at nodes 2st critical frequency: light masses only moving, heavy masses at nodes 3st critical frequency: light and heavy masses are moving in opposite directions

  5. Quantized lattice vibrations Quantized model of the crystal vibrations: there is set of 3N independent linear oscillators( modes) with energy E=(n(w)+1/2) hw The mean number of phonons in the mode with wis Debye’s frequency wD: the largest frequency of vibration in crystal assuming linear dispersion: w = v k. Debye’s temperature Q=hwD/kB Typical acoustic phonon frequency is ~1013 Hz, optical phonon frequency ~ 1014 Hz, Deby’s temperature: diamond -3000 K, Cu -320K, Pb -90K

  6. Inelastic neutron scattering Neutrons can be scattered from the crystal away from Bragg’s law when absorbs or emits phonon:

  7. 100% Cl Cl Cl Na Na Transmittance 70 50 60 l(mm) Infrared absorption in ionic crystals Transmitted light in infrared range, w~ 1014 Hz (l~40-100mm) are absorbed by ionic crystals with optical mode of phonons Transmittance through thin film (0.17mm) of NaCl Ions of Cl and Na are moving in opposite directions

More Related