Add to ORKGUnderstanding the relationship between skyrmions and the behaviour of the Hall effect is essential to realise skyrmionic data storage. In this thesis, possible contributions to the Hall effect, anomalous and topological, in [CoB/Ir/Pt]xn multilayers are determined and the temperature and repeat layer, n, dependent behaviour characterised. The excess Hall resistivity remaining after the ordinary and anomalous Hall effects are subtracted from the Hall resistivity is measured in CoB/Ir/Pt multilayers and shown to depend on the temperature and n. The number, and variation in number, of peak and trough-like features in ρxy,excess as the magnetic field is varied is inversely proportional to the temperature and n. Correlation between the temper...
Skyrmionic materials hold the potential for future information technologies, such as racetrack memor...
Non-volatile memory and computing technology rely on efficient read and write of ultra-tiny informat...
Topological transports of fermions are governed by the Chern numbers of the energy bands lying below...
The topological Hall effect (THE) is the Hall response to an emergent magnetic field, a manifestatio...
The topological Hall effect is used extensively to study chiral spin textures in various materials. ...
We present ways to characterise and optimise multilayers for skyrmion-based devices using Co and CoB...
International audienceS o far, the electrical detection of skyrmions in the lattice phase has been a...
Magnetic skyrmions are knot-like quasiparticles. They are candidates for non-volatile data storage i...
Magnetic skyrmions are nanoscale topological objects which are promising for next-generation informa...
This Brief Report presents giant extraordinary Hall effect (EHE) in the Ru-mediated antiferromagneti...
In this thesis, we study various electron systems with nontrivial topological characters emerging in...
We have investigated the magnetic and charge transport properties of single crystals of the Nowotny ...
Magnetic skyrmions have excited much interest as the basis for novel data storage applications in wh...
Hall effects of electrons can be produced by an external magnetic field, spin–orbit coupling or a to...
Magnetic skyrmions and antiskyrmions are observed in material classes with different crystal symmetr...
Skyrmionic materials hold the potential for future information technologies, such as racetrack memor...
Non-volatile memory and computing technology rely on efficient read and write of ultra-tiny informat...
Topological transports of fermions are governed by the Chern numbers of the energy bands lying below...
The topological Hall effect (THE) is the Hall response to an emergent magnetic field, a manifestatio...
The topological Hall effect is used extensively to study chiral spin textures in various materials. ...
We present ways to characterise and optimise multilayers for skyrmion-based devices using Co and CoB...
International audienceS o far, the electrical detection of skyrmions in the lattice phase has been a...
Magnetic skyrmions are knot-like quasiparticles. They are candidates for non-volatile data storage i...
Magnetic skyrmions are nanoscale topological objects which are promising for next-generation informa...
This Brief Report presents giant extraordinary Hall effect (EHE) in the Ru-mediated antiferromagneti...
In this thesis, we study various electron systems with nontrivial topological characters emerging in...
We have investigated the magnetic and charge transport properties of single crystals of the Nowotny ...
Magnetic skyrmions have excited much interest as the basis for novel data storage applications in wh...
Hall effects of electrons can be produced by an external magnetic field, spin–orbit coupling or a to...
Magnetic skyrmions and antiskyrmions are observed in material classes with different crystal symmetr...
Skyrmionic materials hold the potential for future information technologies, such as racetrack memor...
Non-volatile memory and computing technology rely on efficient read and write of ultra-tiny informat...
Topological transports of fermions are governed by the Chern numbers of the energy bands lying below...