Your search keyword '"Oliver Skibitzki"' showing total 55 results

51. N-Type Ge/SiGe Quantum Cascade Heterostructures for THz Emission

Author

Jérôme Faist, L. Di Gaspare, David Stark, Douglas J. Paul, M. H. Zoellner, Chiara Ciano, Michele Virgilio, Michele Montanari, Giovanni Capellini, Luca Persichetti, Thomas Grange, Oliver Skibitzki, M. De Seta, K. Rew, Giacomo Scalari, Leonetta Baldassarre, Stefan Birner, Michele Ortolani, Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC), Stark, D., Persichetti, L., Montanari, M., Ciano, C., Di Gaspare, L., De Seta, M., Zoellner, M., Skibitzki, O., Capellini, G., Ortolani, M., Baldassarre, L., Virgilio, M., Grange, T., Birner, S., Rew, K., Paul, D. J., Faist, J., and Scalari, G.

Subjects

Materials science, Phonon, business.industry, Terahertz radiation, 020502 materials, chemistry.chemical_element, Heterojunction, Germanium, 02 engineering and technology, 021001 nanoscience & nanotechnology, 7. Clean energy, Semiconductor, 0205 materials engineering, chemistry, Operating temperature, Optoelectronics, Dry etching, 0210 nano-technology, business, Lasing threshold

Abstract

Terahertz (THz) semiconductor based quantum cascade lasers (QCLs) represent powerful and compact integrated light sources. To date they have been realized with various III-V materials where LO phonon emission becomes very effective as the temperature is increased, limiting the maximum operating temperature to 200K. To overcome this limitation, non-polar material systems are attractive because of their weaker e-phonon interaction. Theoretical studies have indicated n-type Ge/SiGe heterostructures where transport is associated to L electrons, as the most promising architecture [1]. Experimentally, sharp intersubband transitions in n-type strain compensated Ge/SiGe QWs have been observed in the 20–50 meV region [2]. Recently, non-equilibrium Green's functions calculations proved to be efficient in optimising high temperature performance of GaAs/AlGaAs THZ QCLs [3]. In the effort of realizing a Ge/SiGe THz QCL, we present here a QCL structure designed by means of non-equilibrium Green's functions [4], whose the bandstructure is reported in Fig.1(a). Epitaxial growth of strain-compensated Ge/SiGe heterostructure (≈1.5 μm thick) has been carried out by means of UHV-CVD yielding very good sample quality as visible from Fig.1(b). Mesa devices for transport experiments have been fabricated by dry etching and metallization. In Fig.1(c) a series of I-V curves as a function of the heatsink temperature display a thermally activated behaviour with E act ≃ 10 meV. From low temperature (4 K) magnetotransport [5] in a magnetic field parallel to the current direction shows characteristics oscillations. we can deduce an energy distance between the lasing states of E 23 =19.5 meV, in good agreement with the theoretical calculation. Optical experiments are ongoing and experimental results will be presented.

52. Reduction of threading dislocation density beyond the saturation limit by optimized reverse grading

Author

'Oliver Skibitzki

53. Photoluminescence from GeSn nano-heterostructures.

Author

Viktoria Schlykow, Peter Zaumseil, Markus Andreas Schubert, Oliver Skibitzki, Yuji Yamamoto, Wolfgang Matthias Klesse, Yaonan Hou, Michele Virgilio, Monica De Seta, Luciana Di Gaspare, Thomas Schroeder, and Giovanni Capellini

Subjects

PHOTOLUMINESCENCE, GERMANIUM compounds, HETEROSTRUCTURES

Abstract

We investigate the distribution of Sn in GeSn nano-heteroepitaxial clusters deposited at temperatures well exceeding the eutectic temperature of the GeSn system. The 600 °C molecular beam epitaxy on Si-patterned substrates results in the selective growth of GeSn nano-clusters having a 1.4 ± 0.5 at% Sn content. These nano-clusters feature Sn droplets on their faceted surfaces. The subsequent deposition of a thin Ge cap layer induced the incorporation of the Sn atoms segregated on the surface in a thin layer wetting the nano-dots surface with 8 ± 0.5 at% Sn. The presence of this wetting layer is associated with a relatively strong photoluminescence emission that we attribute to the direct recombination occurring in the GeSn nano-dots outer region. [ABSTRACT FROM AUTHOR]

Published

2018

54. Structural and optical characterization of GaAs nano-crystals selectively grown on Si nano-tips by MOVPE.

Author

Oliver Skibitzki, Ivan Prieto, Roksolana Kozak, Giovanni Capellini, Peter Zaumseil, Yadira Arroyo Rojas Dasilva, Marta D Rossell, Rolf Erni, Hans von Känel, and Thomas Schroeder

Subjects

OPTICAL properties of gallium arsenide, SILICON, METAL organic chemical vapor deposition

Abstract

We present the nanoheteroepitaxial growth of gallium arsenide (GaAs) on nano-patterned silicon (Si) (001) substrates fabricated using a CMOS technology compatible process. The selective growth of GaAs nano-crystals (NCs) was achieved at 570 °C by MOVPE. A detailed structure and defect characterization study of the grown nano-heterostructures was performed using scanning transmission electron microscopy, x-ray diffraction, micro-Raman, and micro-photoluminescence (μ-PL) spectroscopy. The results show single-crystalline, nearly relaxed GaAs NCs on top of slightly, by the SiO2-mask compressively strained Si nano-tips (NTs). Given the limited contact area, GaAs/Si nanostructures benefit from limited intermixing in contrast to planar GaAs films on Si. Even though a few growth defects (e.g. stacking faults, micro/nano-twins, etc) especially located at the GaAs/Si interface region were detected, the nanoheterostructures show intensive light emission, as investigated by μ-PL spectroscopy. Achieving well-ordered high quality GaAs NCs on Si NTs may provide opportunities for superior electronic, photonic, or photovoltaic device performances integrated on the silicon technology platform. [ABSTRACT FROM AUTHOR]

Published

2017

55. Bi-modal nanoheteroepitaxy of GaAs on Si by metal organic vapor phase epitaxy.

Author

Ivan Prieto, Roksolana Kozak, Oliver Skibitzki, Marta D Rossell, Peter Zaumseil, Giovanni Capellini, Emilio Gini, Karsten Kunze, Yadira Arroyo Rojas Dasilva, Rolf Erni, Thomas Schroeder, and Hans von Känel

Subjects

METAL organic chemical vapor deposition, GALLIUM arsenide, SILICON

Abstract

Nano-heteroepitaxial growth of GaAs on Si(001) by metal organic vapor phase epitaxy was investigated to study emerging materials phenomena on the nano-scale of III–V/Si interaction. Arrays of Si nano-tips (NTs) embedded in a SiO2 matrix were used as substrates. The NTs had top Si openings of 50–90 nm serving as seeds for the selective growth of GaAs nano-crystals (NCs). The structural and morphological properties were investigated by high resolution scanning electron microscopy, atomic force microscopy, electron backscatter diffraction, x-ray diffraction, and high resolution scanning transmission electron microscopy. The GaAs growth led to epitaxial NCs featuring a bi-modal distribution of size and morphology. NCs of small size exhibited high structural quality and well-defined {111}–{100} faceting. Larger clusters had less regular shapes and contained twins. The present work shows that the growth of high quality GaAs NCs on Si NTs is feasible and can provide an alternate way to the integration of compound semiconductors with Si micro- and opto-electronics technology. [ABSTRACT FROM AUTHOR]

Published

2017