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Terahertz spectroscopy of an electron-hole bilayer system in AlN/GaN/AlN quantum wells

2017-08-16
H. Condori Quispe, S.M. Islam, S. Bader, A. Chanana, K. Lee, R. Chaudhuri, A. Nahata, H. G. Xing, D. Jena, B. Sensale-Rodriguez

Abstract

We describe studies on the nanoscale transport dynamics of carriers in strained AlN/GaN/AlN quantum wells: an electron-hole bilayer charge system with large difference in transport properties between the two charge layers. From electronic band diagram analysis, the presence of spatially separated two-dimensional electron and hole charge layers is predicted at opposite interfaces. Since these charge layers exhibit distinct spectral signatures at terahertz frequencies, a combination of terahertz and far-infrared spectroscopy enables us to extract (a) individual contributions to the total conductivity, as well as (b) effective scattering rates for charge-carriers in each layer. Furthermore, by comparing direct-current and terahertz extracted conductivity levels, we are able to determine the extent to which structural defects affect charge transport. Our results evidence that (i) a non-unity Hall-factor and (ii) the considerable contribution of holes to the overall conductivity, lead to a lower apparent mobility in Hall-effect measurements. Overall, our work demonstrates that terahertz spectroscopy is a suitable technique for the study of bilayer charge systems with large differences in transport properties between layers, such as quantum wells in III-Nitride semiconductors.

Abstract (translated by Google)
URL

https://arxiv.org/abs/1708.04752

PDF

https://arxiv.org/pdf/1708.04752


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