Electron-phonon interactions and Kohn anomalies: Difference between revisions

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Line 16: Line 16:
<math>H = H^0_{el} + H^0_{ph} + H_{coul} + H_{int}</math>  
<math>H = H^0_{el} + H^0_{ph} + H_{coul} + H_{int}</math>  


Where
Where
<math>H^0_{el} = \sum_{k \sigma}</math>
 
<math>H^0_{el} = \sum_{k \sigma}E_kc^\dagger_{k \sigma}c_{k \sigma}</math>
<math>H^0_{ph} = \sum_{k \lamda}E_kc^\dagger_{k \sigma}c_{k \sigma}</math>
<math>H^0_{el} = \sum_{k \sigma}E_kc^\dagger_{k \sigma}c_{k \sigma}</math>
 
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Revision as of 17:29, 12 December 2012

Electron-phonon interactions

Free electrons in lattice

Phonons: crystal vibrations

Lattice Vibration and Phonons in 1D

Acoustical and Optical Phonon in 3D

Derivation of Hamiltonian Electron-Phonon Coupling

The Hamiltonian for the electron-phonon interaction can be described as

Where

Failed to parse (unknown function "\lamda"): {\displaystyle H^0_{ph} = \sum_{k \lamda}E_kc^\dagger_{k \sigma}c_{k \sigma}}

Feynman diagrams of electron-phonon coupling

Electron-phonon interaction in the lattice model

Jellium model

The Polaron problem

Linear response calculations of electron-phonon interactions

Kohn anomalies

Examples

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