SERVICE MEASUREMENTS

Expert measurement services for your research papers

What we can measure for you

With years of hands-on experience and deep expertise in scanning NV magnetometry, our team delivers the highest-quality measurements using our QSM. Whether you have a clear hypothesis or are exploring new territory, we'll help you get the most out of your material.


Join the growing list of research groups who have used this service to achieve successful publications.


Contact us to discuss your sample and find the right measurement approach.

Contact us

Magnetic stray field maps

Domains, domain walls, skyrmions, vortices, and more

Current density imaging

Non-destructive, nanoscale mapping of current flow in devices

Local hysteresis loops

Field-dependent magnetization at selected points or grids

Spin dynamics

Spatially resolved FMR and pulsed measurements (T1, T2, T2*)

Vector field reconstruction

Recover the full 3D magnetic field or magnetization distribution

Publications

Service measurements have led to many successful publications

Our measurements have contributed to numerous peer-reviewed publications, demonstrating the value and reliability of characterization with our QSM. A full list of publications resulting from our services is available below.

Coherent Dipolar Coupling between Magnetoelastic Waves and Nitrogen Vacancy Centers

Arxiv (2024) - A. Jung, et. al.

Energy efficient coherent quantum control of nitrogen vacancy (NV) spin with nanoscale magnets

Arxiv (2024) - M. F. F. Chowdhury, et. al.

Giant topological Hall effect across a wide temperature range in Pt/NiCo2O4 heterostructures

Appl. Phys. Lett. 127, 052403 (2025) - B. Giri, et. al.

Nanoscale magnetometry of a synthetic three-dimensional spin texture

Arxiv (2025) - R. J. P Roman, et. al.

Above-Room-Temperature Ferromagnetism in Large-Scale Epitaxial Fe3GaTe2/Graphene van der Waals Heterostructures

ACS Nano, 19, 43, 37561–37571 (2025) - T. Shinwari, et. al.

Already using MOKE or MFM?

NV magnetometry does not replace your existing techniques, it complements them. Example of additional data provided by the QSM are shown below.

MOKE and NV

MOKE shows you where domains are, but not how strong the fields are. NV adds fully quantitative, sub-diffraction-limit stray field maps of the same sample, resolving features and chirality that MOKE cannot.

MFM and NV

MFM gives you nanoscale contrast, but with an unquantified signal and a magnetic tip that can perturb soft samples. NV delivers quantitative field maps with a non-magnetic diamond tip. No tip-induced artifacts, no guesswork.