Explore how our advanced fabrication techniques are allowing our customers to drive breakthroughs in quantum sensing, computing and communication. Browse our case studies and publications to see how the diamonds produced by our Quantum Foundry are helping our customers to shape the future.
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.
Using Qnami Foundry-fabricated diamond with NV nanopillars, researchers at UCLA detected and characterized an interacting spin system, advancing quantum sensing and spin-based entangled sensing.
Sergei Trofimov and Boris Naydenov from the Helmholtz Center in Berlin used Qnami Quantum Foundry diamond plates to achieve nanoscale quantum sensing with 13 nm resolution by combining confocal and atomic-force microscopy techniques.
Rita Du’s team at UC San Diego used Qnami Foundry diamonds for nanoscale quantum sensing of CrPS₄, revealing its layer-dependent magnetism and spin fluctuations, highlighting its potential for next-generation 2D spintronic devices.
Researchers used NV-based quantum sensing to reveal the coexistence of superconductivity and ferromagnetism in FeTexSe1–x, leveraging Quantum Foundry-engineered diamond plates for wide-field imaging.
Researchers developed diamond probes that enhanced nitrogen-vacancy center signal detection, enabling improved quantum sensing for Qnami Quantilever MX+ probes
