Scanning NV Image Gallery

Hematite (α-Fe₂O₃) is a canted in plane antiferromagnet.

Copper Manganese Arsenide is compatible with existing III-V semiconductor systems, making it interesting for electronics applications.

In Gadolinium Cobalt, the magnetic orientation can be "patterned". In the case of our logo, it did not fully work, and we see fractured domains that are significantly more magnetic than they should be.

BiFeO₃ is a prototypical room-temperature multiferroic material. Electric field control of spin cycloids make them attractive for reconfigurable antiferromagnetic spintronics. In this image, the polarization of the BFO was switched under a top Au electrode.

Topological defects in multiferroics are elusive as they both require high spatial resolution and magnetic sensitivity to be detected. Quickscan allows to cover large sample areas in just a few minutes making topological defects easy to locate.

Nanoscale small features can be resolved and imaged quantitatively thanks to the high spatial resolution and sensitivity of QZabre's Quantum Scanning Tips. Collect complementary data with the PFM option, within the same device!

Spatially resolved progating spin waves.

Scanning T₁ relaxometry on BiYIG sample.

By measuring the Rabi rate at at each pixel on a RF waveguide we get a quantitative measurement of the RF field amplitude.

Fe₃GeTe₂ is 2D van der Waals ferromagnet with out of plane anisotropy.

Magnetic domain imaging of an Ir/Fe/Co/Pt multilayer at T=2.9 K, acquired by continuous-wave ODMR with a 50 nm tip–sample distance and 20 nm pixel spacing. No post-processing required. Sample courtesy of Prof. Anjan Soumyanarayanan (A*STAR, Singapore).

Vortex lattice measurement in BSCCO-2212 at T=71 K, revealing 26 vortices in agreement with theoretical expectations. High spatial fidelity achieved in a measurement time of 2 h 40 min.

Domain mapping in twisted double-bilayer CrSBr at T=70 K, demonstrating stable long-duration imaging under cryogenic conditions. Sample courtesy of Prof. Alexander Högele (LMU, Munich).