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Publications about 'gallium compounds'
Articles in journal, book chapters
  1. T. Mehrtens, M. Schowalter, D. Tytko, P. Choi, D. Raabe, L. Hoffmann, H. Jönen, U. Rossow, A. Hangleiter, and A. Rosenauer. Measurement of the indium concentration in high indium content InGaN layers by scanning transmission electron microscopy and atom probe tomography. Applied Physics Letters, 102(13):132112, 2013. [WWW] [doi:10.1063/1.4799382] Keyword(s): gallium compounds, III-V semiconductors, indium compounds, light emitting diodes, quantum well lasers, scanning-transmission electron microscopy, semiconductor quantum wells, wide band gap semiconductors.


  2. J. T. Titantah, D. Lamoen, M. Schowalter, and A. Rosenauer. Modified atomic scattering amplitudes and size effects on the 002 and 220 electron structure factors of multiple Ga$_{1-x}$In$_x$As/GaAs quantum wells. J. Appl. Phys., 105(8):084310, 2009. [WWW] [doi:10.1063/1.3115407] Keyword(s): arsenic compounds, density functional theory, gallium arsenide, gallium compounds, III-V semiconductors, indium compounds, lattice constants, Monte Carlo methods, nanostructured materials, semiconductor heterojunctions, semiconductor quantum wells.


  3. K. Volz, T. Torunski, O. Rubel, W. Stolz, P. Kruse, D. Gerthsen, M. Schowalter, and A. Rosenauer. Annealing effects on the nanoscale indium and nitrogen distribution in Ga(NAs) and (GaIn)(NAs) quantum wells. J. Appl. Phys., 102(8):083504, 2007. [WWW] [doi:10.1063/1.2794739] Keyword(s): annealing, gallium arsenide, gallium compounds, III-V semiconductors, impurity distribution, indium compounds, photoluminescence, Rutherford backscattering, semiconductor epitaxial layers, semiconductor heterojunctions, semiconductor quantum wells, transmission electron microscopy.


  4. M. Schowalter, A. Rosenauer, D. Lamoen, P. Kruse, and D. Gerthsen. Ab initio computation of the mean inner Coulomb potential of wurtzite-type semiconductors and gold. Applied Physics Letters, 88(23):232108-232108-3, 2006. ISSN: 0003-6951. [doi:10.1063/1.2210453] Keyword(s): APW calculations, II-VI semiconductors, III-V semiconductors, ab initio calculations, aluminium compounds, cadmium compounds, density functional theory, electric potential, gallium compounds, gold, indium compounds, monolayers, wide band gap semiconductors, zinc compounds, 7361Ey, 7361Ga.


  5. Yung-Chen Cheng, Cheng-Ming Wu, C. C. Yang, Gang Alan Li, Andreas Rosenauer, Kung-Jen Ma, Shih-Chen Shi, and L. C. Chen. Effects of interfacial layers in InGaN/GaN quantum-well structures on their optical and nanostructural properties. Journal of Applied Physics, 98(1):014317, 2005. [WWW] [doi:10.1063/1.1978988] Keyword(s): indium compounds, gallium compounds, III-V semiconductors, wide band gap semiconductors, semiconductor quantum wells, nanostructured materials, photoluminescence, electroluminescence, Stark effect.


  6. T. Li, E. Hahn, D. Gerthsen, A. Rosenauer, A. Strittmatter, L. Reissmann, and D. Bimberg. Indium redistribution in an InGaN quantum well induced by electron-beam irradiation in a transmission electron microscope. Applied Physics Letters, 86(24):241911, 2005. [WWW] [doi:10.1063/1.1948517] Keyword(s): indium compounds, gallium compounds, III-V semiconductors, wide band gap semiconductors, semiconductor quantum wells, electron beam effects, transmission electron microscopy, internal stresses.


  7. Yung-Chen Cheng, En-Chiang Lin, Cheng-Ming Wu, C.C. Yang, Jer-Ren Yang, Andreas Rosenauer, Kung-Jen Ma, Shih-Chen Shi, L.C. Chen, Chang-Chi Pan, and Jen-Inn Chyi. Nanostructures and carrier localization behaviors of green-luminescence InGaN/GaN quantum-well structures of various silicon-doping conditions. Applied Physics Letters, 84(14):2506-2508, 2004. ISSN: 0003-6951. [doi:10.1063/1.1690872] Keyword(s): III-V semiconductors, gallium compounds, indium compounds, photoluminescence, quantum confined Stark effect, semiconductor doping, semiconductor quantum wells, silicon, wide band gap semiconductors, 6172Vv, 6865Fg, 7855Cr, 7867De.


  8. Yung-Chen Cheng, Cheng-Ming Wu, Meng-Kuo Chen, C. C. Yang, Zhe-Chuan Feng, Gang Alan Li, Jer-Ren Yang, Andreas Rosenauer, and Kung-Je Ma. Improvements of InGaN/GaN quantum-well interfaces and radiative efficiency with InN interfacial layers. Applied Physics Letters, 84(26):5422-5424, 2004. [WWW] [doi:10.1063/1.1767603] Keyword(s): indium compounds, gallium compounds, III-V semiconductors, wide band gap semiconductors, semiconductor quantum wells, photoluminescence, electroluminescence, monolayers.


  9. D. Gerthsen, B. Neubauer, A. Rosenauer, T. Stephan, H. Kalt, O. Schon, and M. Heuken. InGaN composition and growth rate during the early stages of metalorganic chemical vapor deposition. Applied Physics Letters, 79(16):2552-2554, 2001. ISSN: 0003-6951. [doi:10.1063/1.1409949] Keyword(s): III-V semiconductors, MOCVD, gallium compounds, indium compounds, lattice constants, photoluminescence, red shift, semiconductor growth, semiconductor quantum wells, spectral line intensity, transmission electron microscopy, wide band gap semiconductors, 6865Fg, 7855Cr, 7867De, 8107St, 8115Gh.


  10. B. Neubauer, A. Rosenauer, D. Gerthsen, O. Ambacher, and M. Stutzmann. Analysis of composition fluctuations on an atomic scale in Al(0.25)Ga(0.75)N by high-resolution transmission electron microscopy. Applied Physics Letters, 73(7):930-932, 1998. [WWW] [doi:10.1063/1.122041] Keyword(s): aluminium compounds, gallium compounds, wide band gap semiconductors, III-V semiconductors, stoichiometry, fluctuations, transmission electron microscopy, lattice constants, semiconductor heterojunctions, interface structure, semiconductor epitaxial layers.



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