Our products

DiCE

Diamond Integrated Crystal Electrode

Overview

The basic building block for many of our components is the DiCE chip, which incorporates a metallized synthetically grown diamond, which has been processed in-house to generate a dense nitrogen-vacancy defect ensemble. This is the first iteration of a leadless package, facilitating flexible integration and testing for a variety of sensing and signal-generating architectures.

    • PCB-solderable chip.

    • Non-photonic architecture and integration.

    • Rugged operation.

    • Pre-configurable spin resonance energies.

QDi.AC

Quantum Diamond Atomic Clock

Overview

QDi.AC is a frequency reference based on the magnetic spin transitions of a synthetic crystal diamond. It is a through-hole component intended for soldered integration into system electronics that require a long-holdover clock source. The QDi.AC leverages the inherent stability and ruggedness of a synthetic diamond crystal to enable exceptional holdover in a variety of application areas and environments, while generating a pre-configured 10 or 20 MHz LVCMOS or sine wave reference signal.

    • Less than 13 cc volume

    • Exceptionally low aging rate

    • Quick warmup time < 10 s

    • 10/20 MHz sine wave/LVCMOS-compatible output

    • 1 pps output optional

    • GPS receivers and precision timing

    • Inertial navigation systems

    • Autonomous sensor networks

    • Test & measurement systems

    • Network infrastructure

    • Backpack radios