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Publications about 'molecular beam epitaxial growth'
Articles in journal, book chapters
  1. A. Rath, J. K. Dash, R. R. Juluri, A. Rosenauer, Marcos Schoewalter, and P. V. Satyam. Growth of oriented Au nanostructures: Role of oxide at the interface. Journal of Applied Physics, 111(6):064322, 2012. [WWW] [doi:10.1063/1.3698505] Keyword(s): annealing, electron energy loss spectra, elemental semiconductors, field emission electron microscopy, gold, metallic thin films, molecular beam epitaxial growth, nanofabrication, nanoparticles, scanning electron microscopy, silicon, silicon compounds, transmission electron microscopy, vacuum deposition.


  2. D. Litvinov, A. Rosenauer, D. Gerthsen, P. Kratzert, M. Rabe, and F. Henneberger. Influence of the growth procedure on the Cd distribution in CdSe/ZnSe heterostructures: Stranski--Krastanov versus two-dimensional islands. Applied Physics Letters, 81(4):640-642, 2002. [WWW] [doi:10.1063/1.1496133] Keyword(s): cadmium compounds, zinc compounds, II-VI semiconductors, semiconductor heterojunctions, molecular beam epitaxial growth, semiconductor growth, island structure, interface structure, atomic force microscopy, transmission electron microscopy, chemical interdiffusion.


  3. T. Passow, K. Leonardi, H. Heinke, D. Hommel, D. Litvinov, A. Rosenauer, D. Gerthsen, J. Seufert, G. Bacher, and A. Forchel. Quantum dot formation by segregation enhanced CdSe reorganization. Journal of Applied Physics, 92(11):6546-6552, 2002. ISSN: 0021-8979. [doi:10.1063/1.1516248] Keyword(s): II-VI semiconductors, X-ray diffraction, cadmium compounds, molecular beam epitaxial growth, photoluminescence, semiconductor growth, semiconductor quantum dots, semiconductor quantum wells, surface segregation, transmission electron microscopy, zinc compounds, 6835Dv, 6865Fg, 6865Hb, 7855Et, 7866Hf, 8105Dz, 8115Hi.


  4. E. Kurtz, M. Schmidt, M. Baldauf, S. Wachter, M. Grün, H. Kalt, C. Klingshirn, D. Litvinov, A. Rosenauer, and D. Gerthsen. Suppression of lateral fluctuations in CdSe-based quantum wells. Applied Physics Letters, 79(8):1118-1120, 2001. [WWW] [doi:10.1063/1.1394172] Keyword(s): cadmium compounds, II-VI semiconductors, semiconductor quantum wells, fluctuations, photoluminescence, semiconductor growth, spectral line breadth, molecular beam epitaxial growth.


  5. D. Litvinov, A. Rosenauer, D. Gerthsen, H. Preis, K. Fuchs, and S. Bauer. Growth and vertical correlation of CdSe/ZnSe quantum dots. Journal of Applied Physics, 89(7):3695-3699, 2001. ISSN: 0021-8979. [doi:10.1063/1.1352676] Keyword(s): II-VI semiconductors, cadmium compounds, island structure, molecular beam epitaxial growth, reflection high energy electron diffraction, semiconductor epitaxial layers, semiconductor growth, semiconductor quantum dots, transmission electron microscopy, zinc compounds, 6865Hb, 8105Dz, 8107Ta, 8115Hi.


  6. D. Schikora, S. Schwedhelm, D. J. As, K. Lischka, D. Litvinov, A. Rosenauer, D. Gerthsen, M. Strassburg, A. Hoffmann, and D. Bimberg. Investigations on the Stranski--Krastanow growth of CdSe quantum dots. Applied Physics Letters, 76(4):418-420, 2000. [WWW] [doi:10.1063/1.125773] Keyword(s): semiconductor quantum dots, molecular beam epitaxial growth, self-assembly, island structure, stacking faults, cadmium compounds, II-VI semiconductors, reflection high energy electron diffraction, photoluminescence, monolayers.


  7. A. Rosenauer, U. Fischer, D. Gerthsen, and A. Forster. Composition evaluation of In(x)Ga(1-x)As Stranski-Krastanow-island structures by strain state analysis. Applied Physics Letters, 71(26):3868-3870, 1997. [WWW] [doi:10.1063/1.120528] Keyword(s): indium compounds, gallium arsenide, III-V semiconductors, island structure, transmission electron microscopy, lattice constants, molecular beam epitaxial growth, semiconductor epitaxial layers, finite element analysis, segregation, semiconductor growth.


  8. U. Woggon, W. Langbein, J. M. Hvam, A. Rosenauer, T. Remmele, and D. Gerthsen. Electron microscopic and optical investigations of the indium distribution in GaAs capped In(x)Ga(1-x)As islands. Applied Physics Letters, 71(3):377-379, 1997. [WWW] [doi:10.1063/1.119542] Keyword(s): indium compounds, gallium arsenide, III-V semiconductors, semiconductor quantum dots, buried layers, transmission electron microscopy, photoluminescence, molecular beam epitaxial growth, semiconductor growth, semiconductor epitaxial layers.



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Last modified: Wed Sep 21 12:45:11 2016
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