Electron-phonon interactions and Kohn anomalies: Difference between revisions

Revision as of 17:42, 12 December 2012

Electron-phonon interactions

The study of interactions between electrons and phonons, is an interesting and classical topic in quantum many body theory as well as condensed matter physics. The electron-phonon interaction leads to many novel properties in metals, for instance, electrical resistance, thermal resistance, superconductivity and the renormalization of linear electronic specific heat. [1]

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

$H=H_{el}^{0}+H_{ph}^{0}+H_{coul}+H_{int}$

Where

$H_{el}^{0}=\sum _{k\sigma }E_{k}c_{k\sigma }^{\dagger }c_{k\sigma }$

$H_{ph}^{0}=\sum _{k\lambda }\omega _{k\lambda }a_{k\lambda }^{\dagger }+{\frac {1}{2}}$

$H_{coul}^{0}={\frac {1}{2}}\sum _{kk^{\prime }q \atop \sigma \sigma ^{\prime }}V(q)c_{k^{\prime }+q\sigma ^{\prime }}^{\dagger }c_{k\sigma }^{\dagger }$

@@ Line 23: / Line 23: @@
 <math>H^0_{ph} = \sum_{k \lambda}\omega_{k \lambda} a^\dagger_{k \lambda} + \frac{1}{2}</math>
-<math>H^0_{el} = \sum_{k \sigma}E_kc^\dagger_{k \sigma}c_{k \sigma}</math>
+<math>H^0_{coul} = \frac{1}{2} \sum_{k k^\prime q \atop \sigma \sigma^{\prime} } V(q)c^\dagger_{k ^\prime + q \sigma^\prime }c^\dagger_{k \sigma}
+</math>
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Electron-phonon interactions and Kohn anomalies: Difference between revisions

Revision as of 17:42, 12 December 2012

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