Add to ORKGIn order to enhance the performance of CMOS transistors, embedded epitaxial layers of Si:C and SiGe are being investigated. It is crucial to the application to avoid strain relaxation of those layers. In this work, a comparative study of the relaxation behavior of tensile strained Si:C layers as well as compressive strained SiGe due to thermal treatment is conducted. For both material systems, the relaxation phenomena were investigated by means of high resolution x-ray diffraction, reciprocal space maps around the 004 and 224 reflexes, as well as AFM and TEM analysis. The relaxation behavior of Si:C was found not to rely on the formation of dislocations as it is the case for SiGe alloys, but on the transition of substitutional carbon to int...
We describe our work investigating strain relaxation behavior of epitaxial Si1-xGex films on silicon...
the very first stages of the relaxation process of low mismatched systems GeSi/Si, Si/Si(As), Ge(B)/...
High-energy (1 MeV), ion irradiation of GeSi/Si strained layers at elevated temperatures can cause s...
High resolution X-ray diffraction was used to measure the relaxation of strained silicon layers on 5...
We have used Raman spectroscopy, transmission electron microscopy, x-ray diffraction, and x-ray phot...
Strain relaxation in Si1–xGex/Si superlattices and alloy films is studied as a function of ex situ a...
As an economically more attractive alternative to the classical thick graded strain-relaxed SiGe Buf...
Plastic strain relaxation of SiGe layers of different crystal orientations is analytically analyzed ...
""We report on the experimental and theoretical investigation of the relaxation in Ge-rich SiGe\\\/G...
The alloy silicon carbon (Si1-yCy) has various strain engineering applications. It is often implemen...
The lattice relaxation of strained Si1-xGex layers on Si (001) substrates has been examined. Three s...
Abstract. 2014 In this work we investigate the strain-relief mechanisms and the formation of structu...
The effect of in situ chemical HCl etching of Si(0 0 1) substrates on the relaxation behavior of CVD...
Strain relaxation in the As ion implanted Si0.57Ge0.43 epilayers was studied by double-crystal x-ray...
We present a detailed experimental and theoretical analysis of the epitaxial stress relaxation proce...
We describe our work investigating strain relaxation behavior of epitaxial Si1-xGex films on silicon...
the very first stages of the relaxation process of low mismatched systems GeSi/Si, Si/Si(As), Ge(B)/...
High-energy (1 MeV), ion irradiation of GeSi/Si strained layers at elevated temperatures can cause s...
High resolution X-ray diffraction was used to measure the relaxation of strained silicon layers on 5...
We have used Raman spectroscopy, transmission electron microscopy, x-ray diffraction, and x-ray phot...
Strain relaxation in Si1–xGex/Si superlattices and alloy films is studied as a function of ex situ a...
As an economically more attractive alternative to the classical thick graded strain-relaxed SiGe Buf...
Plastic strain relaxation of SiGe layers of different crystal orientations is analytically analyzed ...
""We report on the experimental and theoretical investigation of the relaxation in Ge-rich SiGe\\\/G...
The alloy silicon carbon (Si1-yCy) has various strain engineering applications. It is often implemen...
The lattice relaxation of strained Si1-xGex layers on Si (001) substrates has been examined. Three s...
Abstract. 2014 In this work we investigate the strain-relief mechanisms and the formation of structu...
The effect of in situ chemical HCl etching of Si(0 0 1) substrates on the relaxation behavior of CVD...
Strain relaxation in the As ion implanted Si0.57Ge0.43 epilayers was studied by double-crystal x-ray...
We present a detailed experimental and theoretical analysis of the epitaxial stress relaxation proce...
We describe our work investigating strain relaxation behavior of epitaxial Si1-xGex films on silicon...
the very first stages of the relaxation process of low mismatched systems GeSi/Si, Si/Si(As), Ge(B)/...
High-energy (1 MeV), ion irradiation of GeSi/Si strained layers at elevated temperatures can cause s...