Electron mobility

In physics, electron mobility (or simply, mobility), is used to describe the relation between drift velocity of electrons or holes in a solid material or electrons/ions in a gas, and an applied electric field. The drift mobility is directly related to the electric field as follows,

<math>v_d = \mu E<math>,

where μ is the mobility.

In metric units, mobility is normally measured in cm²/V s. Since mobility is a strong function of impurities in a materials well as temperature, it is difficult to provide any values of mobility here for common materials. Mobility is also different for electrons and holes in a semiconductor.

Typical electron mobility for GaAs at room temperature is 2000 cm²/V s.

In approximation the mobility can be written as a combination of influences from the lattice and from impurities by following equation:

<math>\mu = \frac{1}{\frac{1}{\mu_{lattice}}+\frac{1}{\mu_{impurities}}}<math>.

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