Lattice scattering

Lattice scattering is the scattering of ions by interaction with atoms in a lattice.^[1] This effect can be qualitatively understood as phonons colliding with charge carriers.

In the current quantum mechanical picture of conductivity the ease with which electrons traverse a crystal lattice is dependent on the near perfectly regular spacing of ions in that lattice. Only when a lattice contains perfectly regular spacing can the ion-lattice interaction (scattering) lead to almost transparent behavior of the lattice.^[2]

In the quantum understanding, an electron is viewed as a wave traveling through a medium. When the wavelength of the electrons is larger than the crystal spacing, the electrons will propagate freely throughout the metal without collision.

References

^ Bube, Richard H. (3 September 1992). Electrons in Solids: an introductory survey. Academic Press 1992. pp. 176–177. ISBN 0-12-138553-1.
^ Kip, Arthur F. (2003). Fundamentals of Electricity and Magnetism. McGraw-Hill. pp. 211–213. ISBN 0758184255.

External links

Lundstrom, Mark (26 October 2000). Fundamentals of carrier transport. Cambridge University Press 2000. ISBN 0-521-63134-3.

This quantum mechanics-related article is a stub. You can help Wikipedia by expanding it.

This scattering–related article is a stub. You can help Wikipedia by expanding it.

[1] Bube, Richard H. (3 September 1992). Electrons in Solids: an introductory survey. Academic Press 1992. pp. 176–177. ISBN 0-12-138553-1.

[2] Kip, Arthur F. (2003). Fundamentals of Electricity and Magnetism. McGraw-Hill. pp. 211–213. ISBN 0758184255.

[1]

[2]

See also

References

External links