Tag

Scientific Publication
Representation of the experimental setup to study the effect of superconductivity on spin waves in YIG thin layers.

Spin waves and superconductivity

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By using wide field NV magnetometry, researchers showed for the first time that superconductors can be used to manipulate spin waves.

Multiferroicity of Single-Spin Cycloid state in BFO thin films

ProteusQ combined with AI-based tools allows researchers to unveil for the first time puzzling magnon dynamics through magnetic domain walls.
Single nanoindentation on an antiferromagnetic substrate of a van der Waals heterostructure measured with Scanning NV Mangetometry

Novel chiral quantum light source

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Scanning NV Magnetometry proves how a novel combination of van der Waals materials is the easy and effective chiral quantum light source of the future.

2D Magnet CrPS4 measured with engineered nitrogen-vacancy crystals

Rita Du’s team at UC San Diego used Qnami Foundry diamonds for nanoscale quantum sensing of CrPS₄, revealing its layer-dependent magnetism and spin fluctuations, highlighting its potential for next-generation 2D spintronic devices.
Combining the accuracy of the data obtained with ProteusQ and the AI-based method to infer the magnetization, was cruicial to fully understand the behaviour of magnons in MAFO

Magnon spin diffusion across 180-degree domain walls

ProteusQ combined with AI-based tools allows researchers to unveil for the first time puzzling magnon dynamics through magnetic domain walls.

Fabrication of all diamond scanning probes for nanoscale magnetometry

In this seminal work, Patrick Maletinsky and his group review the fabrication of Scanning NV tips. It is the basis for the Qnami Quantilever

AI Reconstruction of Magnetic Field Sources

Artificial intelligence improves magnetization map reconstruction from NV stray-field images.
Temperature evolution of the antiferromagnetic domain pattern in strained chromium oxide thin films.

Unconventional flexomagnetism in chromium oxide thin films

Applying inhomogeneous strain to chromium oxide thin films induces a strong vertical gradient of the Neel temperature inferred through scanning NV magnetometry measurements.
Antiferromagnetic domain walls in Chromium Oxide imaged with Scanning NV Magnetometry

Nanoscale mechanics of domain walls

Scanning NV Magnetometry unveiled for the first time the nanoscale mechanics of antiferromagnetic domain walls opening new avenues for antiferromagnetic spintronics.

Topological defects in multiferroic antiferromagnetic materials

Qnami Quantilevers enabled the observation of topological defects in multiferroic antiferromagnets at rooom temperature for the first time.
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