2006
DOI: 10.1063/1.2378489
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Buried p-type layers in Mg-doped InN

Abstract: Variable magnetic field Hall effect, photoluminescence, and capacitance-voltage ͑CV͒ analysis have been used to study InN layers grown by plasma assisted molecular beam epitaxy. All three techniques reveal evidence of a buried p-type layer beneath a surface electron accumulation layer in heavily Mg-doped samples. Early indications suggest the Mg acceptor level in InN may lie near 110 meV above the valence band maximum. The development of p-type doping techniques offers great promise for future InN based device… Show more

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Cited by 99 publications
(62 citation statements)
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“…Photoluminescence is observed only from the two samples with the lowest Mg concentration, consistent with previous reports of PL being quenched by Mg doping [14,19,20]. A plausible interpretation of this behavior is that trap states in the bulk of the film are emptied as the Fermi level drops, opening up nonradiative recombination paths for the photoexcited carriers.…”
Section: Photoluminescencesupporting
confidence: 74%
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“…Photoluminescence is observed only from the two samples with the lowest Mg concentration, consistent with previous reports of PL being quenched by Mg doping [14,19,20]. A plausible interpretation of this behavior is that trap states in the bulk of the film are emptied as the Fermi level drops, opening up nonradiative recombination paths for the photoexcited carriers.…”
Section: Photoluminescencesupporting
confidence: 74%
“…A plausible interpretation of this behavior is that trap states in the bulk of the film are emptied as the Fermi level drops, opening up nonradiative recombination paths for the photoexcited carriers. This view is supported indirectly by the observation that PL is quenched for Mg concentrations roughly greater than or equal to the residual donor concentration [14,19].…”
Section: Photoluminescencesupporting
confidence: 60%
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“…As illustrated in Figure 4a, for low Mg-doped samples the near-surface Fermi-level is similar to what is measured in nearly intrinsic InN nanowires, i.e.,~0.4-0.5 eV above the valence band maximum; and for the sample with the highest Mg doping it is reduced to~0.1 eV above the valence band maximum. These results indicate that with Mg doping the near-surface region can be converted to p-type, which is in clear contrast to the previously reported Mg-doped InN epilayers, wherein the surface electron accumulation and Fermi-level pinning in the conduction band are commonly observed [19,21,24,25].…”
Section: Mg-dopant Incorporationcontrasting
confidence: 54%