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2011
Conference Paper
Titel
Metamorphic Te-doped Al 0.4In 0.6Sb/Ga 0.4In 0.6Sb HEMT structures for low power and high frequency applications
Abstract
We report on the molecular beam epitaxial growth of metamorphic AlInSb/GaInSb high-electron-mobility-transistor structures for low power, high frequency applications on 4-inch GaAs substrates. The structures consist of a Ga 0.4In 0.6Sb channel embedded in Al 0.4In 0.6Sb barrier layers which are grown on top of an insulating metamorphic buffer, which is based on the linear exchange of Ga versus In and a subsequent exchange of As versus Sb. Growth parameters were systematically investigated by means of HRXRD, AFM and TEM measurements. The beam-equivalent-pressure ratio As/Sb (3.5) in conjunction with the substrate temperature were found to be the key parameters to get good crystalline quality, demonstrated by the presence of crosshatching, a root mean square roughness of 2.0 nm and good electrical performance. Buffer isolation is determined to be about 1M/ for optimised growth conditions. Van-der-Pauw Hall measurements at room temperature reveal electron densities of 2.2 × 10 12 cm -2 in the channel at mobility values of 22.000 cm 2/Vs for single-sided Te -doped samples and 5.4 × 1012 cm -2 and 17.000 cm 2/Vs for double-sided Te -doped structures, respectively. These high sheet carrier densities combined with maintained high electron mobilities, attributed to our new sophisticated buffer design, are essential for the fabrication of high frequency, high power MMICs.