S. Petznick scite author profile

We suggest a mechanism causing large positive magnetoresistance (MR) in dilute magnetic semiconductors when hopping via nonmagnetic donor impurities dominates the conductivity. The effect is due to the increase in the characteristic width σ of the donor energy distribution with increasing magnetic field B, caused by exchange interactions between magnetic Mn atoms and the electrons localized on nonmagnetic Cl donor impurities. Using general scaling arguments based solely on the dependencies of hopping rates on temperature and on the energies of hopping sites we show that this mechanism accounts quantitatively for our experimental data on MR in n-type Zn 1−x Mn x Se:Cl. We suggest a method for extracting the dependence of σ on magnetic field from the MR data. The mechanism explains the experimentally observed universal dependence of the MR effect on the ratio B/T at different temperatures T under the premise that transport is due to the nearest-neighbor or Mott hopping mechanism.

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Hydrogen and nitrogen incorporation in ZnO thin films grown by radio-frequency (RF) sputtering

Eisermann

Kronenberger

Dietrich

et al. 2009

Thin Solid Films

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Large positive magnetoresistance effects in the dilute magnetic semiconductor (Zn,Mn)Se in the regime of electron hopping

Jansson

Wiemer

Nenashev

et al. 2014

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Effect of boron localized states on the conduction band transport in B_xGa₁₋_xP

et al. 2014

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Effects of interface geometry on the thermoelectric properties of laterally microstructured ZnO‐based thin films

Homm

Gather

Kronenberger

et al. 2012

Physica Status Solidi (a)

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A series of samples consisting of alternating stripes of ZnO grown by molecular-beam epitaxy (MBE) and radio-frequency (rf) sputtered Ga-doped ZnO stripes was laterally microstructured with a self-aligned pattern transfer method. We measured as a function of temperature the Seebeck coefficient S and the electrical resistivity r in-plane of the samples with the transport direction perpendicular to the stripe direction. Throughout the series the bar width and hence the number of interfaces was kept constant, but the interface profile was varied yielding different interface lengths and geometries. The dependence of S, r and the power factor S 2 /r on the interface length at room temperature were simulated using an empirical network model and it was demonstrated that the macroscopic transport coefficients are very sensitive to the interface region and that even this rather simple modelling yields useful information about the interface region.

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S. Petznick

Scaling approach to hopping magnetoresistivity in dilute magnetic semiconductors

Hydrogen and nitrogen incorporation in ZnO thin films grown by radio-frequency (RF) sputtering

Large positive magnetoresistance effects in the dilute magnetic semiconductor (Zn,Mn)Se in the regime of electron hopping

Effect of boron localized states on the conduction band transport in B_xGa₁₋_xP

Effects of interface geometry on the thermoelectric properties of laterally microstructured ZnO‐based thin films

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S. Petznick

Scaling approach to hopping magnetoresistivity in dilute magnetic semiconductors

Hydrogen and nitrogen incorporation in ZnO thin films grown by radio-frequency (RF) sputtering

Large positive magnetoresistance effects in the dilute magnetic semiconductor (Zn,Mn)Se in the regime of electron hopping

Effect of boron localized states on the conduction band transport in BxGa1−xP

Effects of interface geometry on the thermoelectric properties of laterally microstructured ZnO‐based thin films

Contact Info

Product

Resources

About

Effect of boron localized states on the conduction band transport in B_xGa₁₋_xP