Publicaties
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The magnetic fingerprint of dithiazolyl-based molecule magnets Universiteit Gent
Nondestructive detection of inhomogeneity in the magnetic properties of materials with a moving magnet hysteresis comparator Universiteit Gent
Magnetic equivalent circuit model of a permanent magnet electrical variable transmission Universiteit Gent
Influence of soft magnetic material in a permanent magnet synchronous machine with a commercial induction machine stator Universiteit Gent
Magnetic stray field based position detection in BLDC outer rotor permanent magnet synchronous machines Universiteit Gent
Deep Neural Network for Magnetic Core Loss Estimation using the MagNet Experimental Database KU Leuven
Magnetic components play a critical role in power electronics systems and their evolution towards higher power density and efficiency. Nevertheless, accurately modelling magnetic core losses is not a trivial task, requiring extensive measurements. In the context of the general advances of Machine Learning technologies in power electronics applications, this paper presents a Deep Neural Network (DNN) approach to core loss estimations. Various ...
Improved field post-processing for a Stern-Gerlach magnetic deflection magnet KU Leuven
A Stern–Gerlach magnet applies a field gradient in order to deflect particles such that their magnetic moment can be determined. The design of such magnets is based on finite-element (FE) simulations of the magnetic field and its gradient. However, inaccuracies arise when these quantities are calculated from an FE solution for the magnetic vector potential by numerical differentiation. For first-order FE shape functions, the discretisation error ...
Magnetic frustration in a hexaazatrinaphthylene-bridged trimetallic dysprosium single-molecule magnet KU Leuven
The synthesis, structure and magnetic properties of the HAN-bridged tri-dysprosium complex [{(thd)3Dy}3HAN] (1) are described. The complex is an SMM that shows two relaxation processes owing to the presence of two geometrically distinct Dy3+ sites in 1. Ab initio calculations reveal that the magnetic ground state of 1 is characterized by magnetic frustration.