Influence of impurity band conduction on the electrical characteristics of p-type GaAs

Transport property measurements on p-type germanium, doped to be in the intermediate concentration region (1016 < NA < 1018 cm−3), were performed in the temperature range of 1.6–77 K under static (up to 337 MPa) and modulated (2.4 on 180 MPa) uniaxial compression. To elucidate the conduction mechanisms in this region the position of the Fermi level is calculated as a function of temperature and uniaxial stress and correlated to the variation of the measured transport properties. The analyses indicate an Anderson type metallic conduction, characteristic of random, amorphous systems, while the Fermi level is in the impurity band. Mott type metallic conduction, characteristic to periodic systems, determines the transport properties as the Fermi level moves out of the impurity band.

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Doping of p-type ZnSb: Single parabolic band model and impurity band conduction

physica status solidi (a) ◽

10.1002/pssa.201127211 ◽

2011 ◽

Vol 208 (12) ◽

pp. 2753-2759 ◽

Cited By ~ 53

Author(s):

P. H. Michael Böttger ◽

Gregory S. Pomrehn ◽

G. Jeffrey Snyder ◽

Terje G. Finstad

Keyword(s):

Impurity Band ◽

Band Model ◽

P Type ◽

Band Conduction

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Impurity band conduction in single crystals of p-type GaSb

physica status solidi (b) ◽

10.1002/pssb.2221170145 ◽

1983 ◽

Vol 117 (1) ◽

pp. 407-416

Author(s):

K. D. Chaudhuri ◽

Anita Malik ◽

Sunita Kukreti ◽

P. C. Mathur

Keyword(s):

Single Crystals ◽

Impurity Band ◽

P Type ◽

Band Conduction

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Raman and magneto transport studies of MBE grown β-FeSi2, β-(Fe1-xCrx)Si2, and β-(Fe1-xCox)Si2

MRS Proceedings ◽

10.1557/proc-744-m5.43 ◽

2002 ◽

Vol 744 ◽

Author(s):

A. Srujana ◽

A. Wadhawan ◽

K. Srikala ◽

B.P. Gorman ◽

R.J. Cottier ◽

...

Keyword(s):

Impurity Band ◽

Great Promise ◽

Temperature Dependent ◽

Iron Disilicide ◽

Free Carriers ◽

Transport Studies ◽

Light Emitter ◽

P Type ◽

Silicon Based ◽

Band Conduction

ABSTRACTIron disilicide shows great promise as a silicon based light emitter operating in the 1.3 to 1.5 μm wavelength range. However, there exists a number of questions related to the band structure and the ability to alloy and controllably dope the material both n and p type. In this paper we present Raman and magneto transport studies on β-FeSi2, β-(Fe1-xCrx)Si2, and β-(Fe1-xCox)Si2 grown by MBE. By comparing the spectra obtained for undoped and doped samples we provide a general overview of the effects of doping on the crystallinity of the material. The temperature dependent (4K<T<300K) magneto transport illustrates that Cr is a p-type dopant and Co is an n-type dopant in β-FeSi2.The temperature dependence of the resistivity indicates that the transport properties at higher temperatures are determined by free carriers whereas at lower temperatures impurity band conduction prevails.

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