Tag

Scientific Publication

Optimizing Off-Axis Fields for Vector Magnetometry

Paul Stevenson’s research at Northeastern University utilized the Qnami ProteusQ microscope to enhance vector magnetometry, allowing precise measurement of both parallel and perpendicular stray fields in complex materials like bismuth ferrite.

Fabrication of High-Quality Thin Single-Crystal Diamond Membranes with Low Surface Roughness

Qnami Quantum foundry helps to improve diamond membranes

Photoinduced Charge Injection from Shallow Point Defects in Diamond into Water

NV centers fabricated by the Quantum foundry facilitate the injection of electrons into water

Revealing intrinsic domains and fluctuations of moiré magnetism

Revealing intrinsic domains and fluctuations of moiré magnetism

Designed Spin-Texture to control Magnon Transport in Antiferromagnets

In this studay the Qnami ProteusQ is used for an investigation of electrically tunable spin transport in BFO.
Probing geometry-induced magnetic defects in cylindrical modulated nanowires with optically detected spin resonance in nitrogen-vacancy center in diamond

Probing Geometry-Induced Magnetic Defects in Modulated Nanowires with NV Centers in Diamond

Researchers led by Jacopo Forneris have demonstrated the fabrication of germanium-vacancy (GeV) color center arrays in diamond nanopillars, showcasing the Quantum Foundry’s expertise in nanopatterning for quantum photonics.

Assessing the quality of magnetic memory devices

Magnetic random access memory devices are investigated using Scanning NV magnetometry

Configuring topological states by electric fields

Vincent Garcia’s team, using ProteusQ, demonstrated electrically controlled topological states in BiFeO₃, advancing reconfigurable antiferromagnetic spintronics.
Piezoforce and Scanning NV Microscopy images of a Bismuth Ferrite sample recorded with Qnami ProteusQ

BFO as a platform for ultraefficient spintronics

Magnetoelectric coupling in BFO is seen as never before with ProteusQ by combining Piezo Force and Scanning NV Microscopy.

All-oxide Magnetoelectric logic

Ramamoorthy Ramesh’s team, using Scanning NV data from Proteus Q, demonstrated ferroelectric control of magnons in BiFeO₃, enabling energy-efficient spin transport for low-dissipation nanoelectronics.
1 2 3 4 6
We are using cookies and analytics tools to give you the best digital experience.
AcceptPrivacy Settings

GDPR

  • Cookie Consent

Cookie Consent

We are using cookies and analytics tools to give you the best digital experience.  Find more information and details about how to switch them off in our Terms of Website Use and Privacy Policy.