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A combined model for miniband and hopping transport in superlattices

✍ Scribed by S Rott; P Binder; N Linder; G.H Döhler

Book ID
104429146
Publisher
Elsevier Science
Year
1998
Tongue
English
Weight
87 KB
Volume
2
Category
Article
ISSN
1386-9477

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✦ Synopsis

We compare the description of electronic transport in a semiclassical miniband model and within the hopping transport model. While the miniband theory is correct at low ÿelds, quantum mechanical corrections to the Bloch oscillation picture due to the formation of the Wannier-Stark ladder at high ÿelds have to be treated within the hopping theory. This model cannot reproduce an ohmic drift velocity regime, but we can show that the hopping relaxation time becomes ÿeld independent at low ÿelds. Using this time within the relaxation time approximation of the Boltzmann equation we are able to combine the two transport theories to cover the whole range of electric ÿelds. The results obtained from this combined model agree very well with those of a k-space Monte-Carlo simulation for the range from low to moderately high ÿelds. At very high ÿelds, however, only the hopping picture provides the correct results.

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## Abstract The effect of negative differential conductivity (NDC) in the hopping transport mode is studied by computer simulations. NDC is an important effect in a class of memory devices. Understanding the origin of NDC is vital to modeling these devices. Based on analytical arguments, it has bee