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Measurement of the drift velocities of electrons and holes in high-ohmic <100> silicon

Measurements of the drift velocities of electrons and holes as functions of electric field and temperature in high-purity n- and p-type silicon with <100> orientation are presented. The measurements cover electric field values between 2.5 and 50 kV/cm and temperatures between 233 and 333 K. For both electrons and holes differences of more than 15 % are found between our <100> results and the <111> drift velocities from literature, which are frequently also used for simulating <100> sensors. For electrons, the <100> results agree with previous <100> measurements, however, for holes differences between 5 to 15 % are observed for fields above 10 kV/cm. Combining our results with published data of low-field mobilities, we derive parametrizations of the drift velocities in high-ohmic <100> silicon for electrons and holes for fields between 0 and 50 kV/cm, and temperatures between 233 and 333 K. In addition, new parametrizations for the drift velocities for electrons and holes are introduced, which provide somewhat better descriptions of existing data for <111> silicon, than the standard parametrization.

preprint2015arXivOpen access
Christian ScharfRobert Klanner
hep-exphysics.ins-det
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Christian ScharfRobert Klanner

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