W
W.G. van der Wiel
Researcher at MESA+ Institute for Nanotechnology
Publications - 34
Citations - 3406
W.G. van der Wiel is an academic researcher from MESA+ Institute for Nanotechnology. The author has contributed to research in topics: Magnetoresistance & Spintronics. The author has an hindex of 16, co-authored 34 publications receiving 3174 citations. Previous affiliations of W.G. van der Wiel include University of Twente.
Papers
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Journal ArticleDOI
Magnetic effects at the interface between non-magnetic oxides
Alexander Brinkman,Mark Huijben,Mark Huijben,M. van Zalk,J. Huijben,Uli Zeitler,Jan C. Maan,W.G. van der Wiel,Guus Rijnders,David H.A. Blank,Hans Hilgenkamp +10 more
TL;DR: In this article, the authors show how magnetism can be induced at the interface between the otherwise non-magnetic insulating perovskites SrTiO3 and LaAlO3.
Journal ArticleDOI
Magnetic effects at the interface between nonmagnetic oxides
Alexander Brinkman,Mark Huijben,M. van Zalk,Jeroen Huijben,Uli Zeitler,Jan C. Maan,W.G. van der Wiel,Guus Rijnders,D. H. A. Blank,Hans Hilgenkamp +9 more
TL;DR: In this paper, it was shown how magnetism can be induced at the interface between the otherwise non-magnetic insulating perovskites SrTiO3 and LaAlO3.
Journal ArticleDOI
Josephson supercurrent through a topological insulator surface state
Menno Veldhorst,M. Snelder,M. Hoek,T. Gang,V. K. Guduru,Xiaolin Wang,Uli Zeitler,W.G. van der Wiel,Alexandre Avraamovitch Golubov,Hans Hilgenkamp,Hans Hilgenkamp,Alexander Brinkman +11 more
TL;DR: In this article, direct evidence for Josephson supercurrents in superconductor (Nb)-topological insulator (Bi2Te3)-superconductor electron-beam fabricated junctions is provided by the observation of clear Shapiro steps under microwave irradiation, and a Fraunhofer-type dependence of the critical current on magnetic field.
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Evolution of a designless nanoparticle network into reconfigurable Boolean logic
S. K. Bose,Celestine Preetham Lawrence,Zhihua Liu,K. S. Makarenko,R.M.J. van Damme,Hajo Broersma,W.G. van der Wiel +6 more
TL;DR: This system artificially evolve the electrical properties of a disordered nanomaterials system to perform computational tasks reconfigurably and meets the criteria for the physical realization of (cellular) neural networks: universality, compactness, robustness and evolvability, which implies scalability to perform more advanced tasks.
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The multi-step tunneling analogue of conductivity mismatch in organic spin valves
TL;DR: In this article, an experimental study of C60-based spin valves is presented and their behavior is modeled with spin-polarized tunneling via multiple intermediate states with a Gaussian energy distribution.