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Hardware for quantum researchers and developers.
Hardware for quantum researchers and developers.
From discrete single-photon sources to custom photonic integration, we supply the building blocks that quantum hardware needs. All products are developed in collaboration with our research partners at UTS.
From discrete single-photon sources to custom photonic integration, we supply the building blocks that quantum hardware needs. All products are developed in collaboration with our research partners at UTS.
Single-photon source Bright, on-demand quantum light at room temperature.
A high-purity hBN-based single-photon emitter designed for quantum key distribution, quantum random number generation, and quantum networking research. Engineered for stability, ease of use, and integration into both benchtop systems and prototype hardware — already deployed in national laboratory settings.
Key features:
Room-temperature, ambient-condition operation
High single-photon purity with strong multi-photon suppression
Stable, on-demand emission suitable for protocol-level experiments
Available in chip, fibre-coupled, and packaged module formats
Ensemble spin sensor Wide-field quantum magnetic imaging at room temperature.
High-sensitivity magnetic field mapping using dense ensembles of spin defects in hBN. Designed for materials characterisation, biological imaging, and non-destructive testing where sample preparation matters and cryogenic systems aren't practical.
Key features:
Room-temperature, ambient-pressure operation
Wide-field imaging across millimetre-scale areas
Compatible with aqueous and biological samples
2D geometry enables close proximity to sample surfaces
Single-spin sensor Nanoscale magnetic and electric field probes.
Atomic-resolution sensors built around individually addressable spin defects in hBN. Suited to nanoscale NMR, surface physics, condensed matter research, and molecular-scale imaging — the most sensitive probes in our range.
Key features:
Nanoscale spatial resolution
Sensitivity to magnetic and electric fields
Surface accessibility from the 2D material geometry
Room-temperature operation
Custom photonic integration Hybrid quantum-photonic chip development.
End-to-end design, fabrication, and packaging of photonic integrated circuits with embedded hBN quantum emitters. We work with low-loss waveguide platforms and bring deep experience in cavity coupling, fibre packaging, and hybrid integration.
Key features:
Compatible with silicon nitride and other CMOS-friendly platforms
Cavity-enhanced emitter coupling for improved collection efficiency
Fibre-coupled and packaged module options
Collaborative development from concept through to delivered hardware
Nanofabrication consultancy Process engineering for 2D materials and quantum devices.
Specialist support for groups working with hBN, other 2D materials, and quantum device fabrication. We help accelerate R&D cycles — from defect engineering and lithography through to characterisation and integration — drawing on a decade of experimental expertise developed at UTS.
Key features:
Defect engineering and quantum emitter activation
Electron beam and ion beam processing
Top-down lithography and device fabrication
Optical and spin characterisation support
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