TY - JOUR

T1 - Highly boron-doped germanium layers on Si(001) grown by carbon-mediated epitaxy

AU - Barnscheidt, Yvo

AU - Schmidt, Jan

AU - Wetzel, Gustav

AU - Tetzlaff, Dominic

AU - Wietler, Tobias

AU - Osten, Hans-Jörg

N1 - © 2018 IOP Publishing Ltd

PY - 2018/9/26

Y1 - 2018/9/26

N2 - Smooth and fully relaxed highly boron-doped germanium layers were grown directly on Si(001) substrates using carbon-mediated epitaxy. A doping level of NA 1.1 10 cm 20 -3 was measured by several methods. Using high-resolution x-ray diffraction we observed different lattice parameters for intrinsic and highly boron-doped samples. Alattice parameter of aGe:B = 5.653 A was calculated using the results obtained by reciprocal space mapping around the (113) reflection and the model of tetragonal distortion. The observed lattice contraction was adapted and brought in accordance with a theoretical model developed for ultra-highly boron-doped silicon. Raman spectroscopy was performed on the intrinsic and doped samples. A shift in the first order phonon scattering peak was observed and attributed to the high doping level. A doping level of (1.28+0.19) 1020 cm-3 was calculated by comparison with literature. We also observed a difference between the intrinsic and doped sample in the range of second order phonon scattering. Here, an intense peak is visible at 544.8 cm-1 for the doped samples. This peak was attributed to the bond between germanium and the boron isotope 11B.

AB - Smooth and fully relaxed highly boron-doped germanium layers were grown directly on Si(001) substrates using carbon-mediated epitaxy. A doping level of NA 1.1 10 cm 20 -3 was measured by several methods. Using high-resolution x-ray diffraction we observed different lattice parameters for intrinsic and highly boron-doped samples. Alattice parameter of aGe:B = 5.653 A was calculated using the results obtained by reciprocal space mapping around the (113) reflection and the model of tetragonal distortion. The observed lattice contraction was adapted and brought in accordance with a theoretical model developed for ultra-highly boron-doped silicon. Raman spectroscopy was performed on the intrinsic and doped samples. A shift in the first order phonon scattering peak was observed and attributed to the high doping level. A doping level of (1.28+0.19) 1020 cm-3 was calculated by comparison with literature. We also observed a difference between the intrinsic and doped sample in the range of second order phonon scattering. Here, an intense peak is visible at 544.8 cm-1 for the doped samples. This peak was attributed to the bond between germanium and the boron isotope 11B.

KW - carbon-mediated epitaxy

KW - Fano effect

KW - germanium on silicon

KW - lattice contraction

KW - Raman spectroscopy of germanium

KW - ultra-high boron doping

KW - x-ray diffraction

UR - http://www.scopus.com/inward/record.url?scp=85054655709&partnerID=8YFLogxK

U2 - 10.1088/1361-6641/aade69

DO - 10.1088/1361-6641/aade69

M3 - Article

AN - SCOPUS:85054655709

VL - 33

JO - Semiconductor Science and Technology

JF - Semiconductor Science and Technology

SN - 0268-1242

IS - 10

M1 - 104006

ER -