Electron-longitudinal acoustic phonon interaction
The electron-longitudinal acoustic phonon interaction is an interaction that can take place between an electron and a longitudinal acoustic (LA) phonon in a material such as a semiconductor.
Displacement operator of the LA phonon
The equations of motion of the atoms of mass M which locates in the periodic lattice is
- ,
where is the displacement of the nth atom from their equilibrium positions.
Defining the displacement of the th atom by , where is the coordinates of the th atom and is the lattice constant,
the displacement is given by
Then using Fourier transform:
and
- .
Since is a Hermite operator,
From the definition of the creation and annihilation operator
- is written as
Then expressed as
Hence, using the continuum model, the displacement operator for the 3-dimensional case is
- ,
where is the unit vector along the displacement direction.
Interaction Hamiltonian
The electron-longitudinal acoustic phonon interaction Hamiltonian is defined as
- ,
where is the deformation potential for electron scattering by acoustic phonons.[1]
Inserting the displacement vector to the Hamiltonian results to
Scattering probability
The scattering probability for electrons from to states is
Replace the integral over the whole space with a summation of unit cell integrations
where , is the volume of a unit cell.
See also
Notes
- Hamaguchi, Chihiro (2017). Basic Semiconductor Physics. Graduate Texts in Physics (3 ed.). Springer. p. 292. doi:10.1007/978-3-319-66860-4. ISBN 978-3-319-88329-8.
References
- Hamaguchi, Chihiro (2017). Basic Semiconductor Physics. Graduate Texts in Physics (3 ed.). Springer. pp. 265–363. doi:10.1007/978-3-319-66860-4. ISBN 978-3-319-88329-8.
- Yu, Peter Y.; Cardona, Manuel (2005). Fundamentals of Semiconductors (3rd ed.). Springer.