Over the past few decades, advancements in storage density and energy efficiency have driven the miniaturization of magnetic memories, with state-of-the-art STT-MRAM bit sizes now well below the 100 nm scale. The ProteusQ provides the necessary power to probe the magnetic homogeneity of these bits with the required spatial resolution and sensitivity, even before electrical characterization.
Denys Makarov's team at HZDR, together with the Qnami Application lab, demonstrated a method for creating binary states in antiferromagnetic materials.
Vincent Garcia’s team, using ProteusQ, demonstrated electrically controlled topological states in BiFeO₃, advancing reconfigurable antiferromagnetic spintronics.
Felix Casanova's team used Qnami products to demonstrate voltage-controlled magnetization switching and reading in nanodevices, paving the way for low-power magnetoelectric spin-orbit logic.
Scanning NV Magnetometry (SNVM) is a versatile, high-resolution technique for electronic device failure analysis, enabling precise sensing of currents, temperature, magnetic fields, and AC fields.
