Journal
PHYSICAL REVIEW B
Volume 77, Issue 16, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.77.165334
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The mobility and carrier concentration of a number of InSb-based modulation-doped quantum well heterostructures are examined over a range of temperatures between 4.5 and 300 K. Wide well (30 nm) and narrow well (15 nm) structures are measured. The temperature dependent mobilities are considered within a scattering model that incorporates polar optical and acoustic phonon scatterings, interface roughness scattering, and scattering from charged impurities both in the three-dimensional background and within a distributed quasi-two-dimensional doping layer. Room temperature mobilities as high as 51 000 cm(2)/V s are reported for heterostructures with a carrier concentration of 5.8 x 10(11) cm(-2), while low-temperature mobility (below 40 K) reaches 248 000 cm(2)/V s for a carrier concentration of 3.9 x 10(11) cm(-2). A Schrodinger-Poisson model is used to calculate band structures in the material and is shown to accurately predict carrier concentrations over the whole temperature range. Low-temperature mobility is shown to be dominated by remote ionized impurity scattering in wide well samples and by a combination of ionized impurity and interface roughness scattering in narrow well samples.
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