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Scientific Publication
Image Credit: https://journals.aps.org/prapplied/abstract/10.1103/PhysRevApplied.14.064007

Parabolic Diamond Scanning Probes for Single-Spin Magnetic Field Imaging

Researchers developed diamond probes that enhanced nitrogen-vacancy center signal detection, enabling improved quantum sensing for Qnami Quantilever MX+ probes

Room-Temperature Skyrmions at Zero Field in Exchange-Biased Ultrathin Films – Physical Review Applied

Team led by Dr. O. Boulle demonstrates skyrmions stable at room temperature and with a radius 10x smaller than previously reported.

Antiferromagnetic textures in BiFeO3controlled by strain and electric field – Nature Communications

Team of Prof. V.Garcia from CNRS/Thales shows electrical control of the magnetic states of BFO opening a new playground for low-power spintronics

Electric and antiferromagnetic chiral textures at multiferroic domain walls – Nature Materials

French research group led by Prof. M. Viret uses scanning NV magnetometry to reveal a novel type of chiral spin-textures occurring on BiFeO3’s domain-walls.

Purely antiferromagnetic magnetoelectric Random Access Memory – Nature Communication

D. Makarov and his team demonstrate the first antiferromagnetic memory that can be entirely manipulated and read electrically.

Quantitative nanoscale vortex imaging using a cryogenic quantum sensor – Nature Nanotechnology

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In this paper, the group of Patrick Maletinsky demonstrate operation of a quantum sensor in cryogenic environment for the first time.

Nanoscale microwave imaging with a single electron spin in diamond – New Journal of Physics

Use the QuantileverMX to image microwave (MW) currents with nanometric spatial resolution.

Magnetization Reconstruction Through Vector Magnetic Field Measurements

This work demonstrates how vector measurements improve the accuracy of reconstructing current density and magnetization in 2D materials using stray magnetic field data.

Probing magnetism in 2D materials at the nanoscale with single-spin microscopy

Patrick Maletinsky’s group pioneered the use of scanning nitrogen-vacancy magnetometry to achieve the first nanoscale imaging of magnetism in 2D materials.

Nanoscale magnetic imaging of a single electron spin under ambient conditions

A powerful demonstration of Scanning NV magnetometry: The imaging of a single spin
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