Joris Van de Vondel
Katholieke Universiteit Leuven
64 Papers
99 Citations
Joris Van de Vondel is an academic researcher from Katholieke Universiteit Leuven. The author has contributed to research in topics: Superconductivity & Vortex. The author has an hindex of 13, co-authored 36 publications. Previous affiliations of Joris Van de Vondel include Catalan Institute of Nanotechnology & Laboratory of Solid State Physics.
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Papers
Noninvasive Readout of the Kinetic Inductance of Superconducting Nanostructures.
L. Nulens,Davi A. D. Chaves,Omar J. Y. Harb,Jeroen Scheerder,N. Lejeune,Kamal Brahim,Bart Raes,A. Silhanek,M. J. Van Bael,Joris Van de Vondel +9 more
- 20 May 2024
Electrically Driven Unidirectional Optical Nanoantennas
Surya Gurunarayanan,Niels Verellen,Vyacheslav S. Zharinov,Finub James Shirley,Victor Moshchalkov,Marc Heyns,Joris Van de Vondel,Iuliana Radu,Pol Van Dorpe +8 more
TL;DR: This work experimentally demonstrates electrical driving of in-plane tunneling nanoantennas to achieve broadband unidirectional emission of light and demonstrates passive tunability of the directivity using the antenna geometry.
Two-dimensional perovskites with alternating cations in the interlayer space for stable light-emitting diodes
Electronic voltage control of magnetic anisotropy at room temperature in high- κ SrTiO 3 / Co / Pt trilayer
Bart Vermeulen,Johan Swerts,Sebastien Couet,Mihaela Popovici,Iuliana Radu,Joris Van de Vondel,Kristiaan Temst,Guido Groeseneken,Koen Martens +8 more
TL;DR: In this article, the voltage control of magnetic anisotropy (VCMA) effect in MgO stacks is shown to increase the strength of the VCMA effect by a factor of two.
In situ tailoring of superconducting junctions via electro-annealing
Joseph Lombardo,Ž. L. Jelić,Ž. L. Jelić,Xavier D. A. Baumans,Jeroen E. Scheerder,Jorge P. Nacenta,Victor Moshchalkov,Joris Van de Vondel,Roman B. G. Kramer,Milorad V. Milošević,Alejandro Silhanek +10 more
TL;DR: In situ engineering of superconducting nanocircuitry by targeted modulation of material properties through high applied current densities is demonstrated by employing the detailed parametrization from the electrical characterization and high resolution electron microscope images of the region within the constriction where the material has undergone amorphization by electro-annealing.