J. Krauser
Hochschule Harz
48 Papers
323 Citations
J. Krauser is an academic researcher from Hochschule Harz. The author has contributed to research in topics: Ion track & Ion. The author has an hindex of 16, co-authored 48 publications.
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Papers
Shallow donor muonium states in II-VI semiconductor compounds
João Gil,H. V. Alberto,R. C. Vilão,J. Piroto Duarte,N. Ayres de Campos,A. Weidinger,J. Krauser,E.A. Davis,Stephen P. Cottrell,S. F. J. Cox,S. F. J. Cox +10 more
TL;DR: In this paper, experimental data on shallow donor muonium states in the tetrahedrally-bonded semiconductor compounds CdS, CdSe, cdTe, and ZnO are presented.
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Novel Muonium State in CdS
João Gil,H. V. Alberto,R. C. Vilão,J. Piroto Duarte,P. J. Mendes,Liliana P. Ferreira,N. Ayres de Campos,A. Weidinger,J. Krauser,Ch. Niedermayer,Stephen J. Cox,Stephen J. Cox +11 more
TL;DR: In this article, a new type of muonium defect center was observed in undoped CdS below 20 K. The hyperfine interaction amounts only to approximately 10−4$ of the vacuum value, and is shown to have axial symmetry along the Cd-S bond direction.
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Hydrogen implantation and diffusion in silicon and silicon dioxide
D. Fink,J. Krauser,D. Nagengast,T. Almeida Murphy,J. Erxmeier,L. Palmetshofer,D. Bräunig,Alois Weidinger +7 more
TL;DR: In this article, the authors measured the depth profiles of hydrogen implanted into crystalline silicon in random direction at different fluences using the 15N technique and by SIMS and found that hydrogen implanted at a fluence of 1015 ions/cm2 shows some limited mobility, whereas no such mobility is observed for higher implantation fluences.
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Conductivity of nanometer-sized ion tracks in diamond-like carbon films
TL;DR: Amorphous diamond-like carbon films were irradiated with high-energy heavy ions like 1 GeV uranium or 340 MeV gold, and the ion tracks formed thin straight channels (nanowires) with a diameter of approximately 8 nm and a conductivity of the order of 1-10 S/cm as discussed by the authors.
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Electrically conducting ion tracks in diamond-like carbon films for field emission
M. Waiblinger,Ch. Sommerhalter,B. Pietzak,J. Krauser,Bernd Mertesacker,M.Ch. Lux-Steiner,S. Klaumünzer,Alois Weidinger,Carsten Ronning,H. Hofsäß +9 more
TL;DR: In this article, the authors used an atomic force microscope (AFM) to analyze the conductivity of an insulating, diamond-like (sp3-bonding) form of carbon into the conducting, graphitic (sp2-bonding) configuration.
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