Fisicoquímica de Superficies y Nanoestructuras
Johannes Kepler University of Linz
Linz, AustriaPublikationen in Zusammenarbeit mit Forschern von Johannes Kepler University of Linz (19)
2021
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Topological magnetic materials of the (MnSb2Te4)·(Sb2Te3)nvan der waals compounds family
Journal of Physical Chemistry Letters, Vol. 12, Núm. 17, pp. 4268-4277
2020
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Tunable 3D/2D magnetism in the (MnBi2Te4)(Bi2Te3) m topological insulators family
npj Quantum Materials, Vol. 5, Núm. 1
2019
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Prediction and observation of an antiferromagnetic topological insulator
Nature, Vol. 576, Núm. 7787, pp. 416-422
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Unique Thickness-Dependent Properties of the van der Waals Interlayer Antiferromagnet MnBi2Te4 Films
Physical Review Letters, Vol. 122, Núm. 10
2017
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Electronic Stopping of Slow Protons in Oxides: Scaling Properties
Physical Review Letters, Vol. 119, Núm. 16
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Electronic Stopping of Slow Protons in Transition and Rare Earth Metals: Breakdown of the Free Electron Gas Concept
Physical Review Letters, Vol. 118, Núm. 10
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Highly-ordered wide bandgap materials for quantized anomalous Hall and magnetoelectric effects
2D Materials, Vol. 4, Núm. 2
2009
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LEIS: A reliable tool for surface composition analysis?
Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, Vol. 267, Núm. 4, pp. 624-627
2008
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Crystal effects in the neutralization of He+ ions in the low energy ion scattering regime
Physical Review Letters, Vol. 100, Núm. 21
2001
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Electronic stopping power of [Formula Presented] and [Formula Presented] for H, He, and N
Physical Review A - Atomic, Molecular, and Optical Physics, Vol. 64, Núm. 1, pp. 5
2000
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How far are transmission measurements of pre-equilibrium stopping influenced by impact parameter selection?
Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, Vol. 164, pp. 284-290
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Unexpected behavior of the stopping of slow ions in ionic crystals
Physical Review Letters, Vol. 84, Núm. 10, pp. 2124-2127
1997
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Absence of a “Threshold Effect” in the Energy Loss of Slow Protons Traversing Large-Band-Gap Insulators
Physical Review Letters, Vol. 79, Núm. 21, pp. 4112-4115
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Contribution of valence electrons to the electronic energy loss of hydrogen ions in oxides
Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, Vol. 125, Núm. 1-4, pp. 102-105
1996
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Investigation of the influence of impact parameter selection on energy loss measurements in gases
Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, Vol. 115, Núm. 1-4, pp. 93-97
1995
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Stopping power of lithium for hydrogen projectiles
Nuclear Inst. and Methods in Physics Research, B, Vol. 96, Núm. 3-4, pp. 639-642
1994
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Phase effect in the energy loss of hydrogen projectiles in zinc targets
Physical Review B, Vol. 49, Núm. 10, pp. 6470-6480
1993
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On the phase effect in electronic stopping
Journal of Physics: Condensed Matter, Vol. 5, Núm. 33 A
1992
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Phase effect in the energy loss of H projectiles in Zn targets: Experimental evidence and theoretical explanation
Physical Review Letters, Vol. 69, Núm. 7, pp. 1137-1139