Diraq
UNSW spin-off. Silicon CMOS qubits compatible with standard chip fabrication.
$15M
Last round (series-a)
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Related Research
Energy efficiency of quantum computers
Understanding oxide-thickness-dependent variability in dense Si-MOS quantum dot arrays
Surface-Code Thresholds and Qubit Footprints in Shuttling-Based Spin-Qubit Railways
Spectral tuning of single T centres by the Stark effect
Anisotropic spin-valley coupling in SiMOS and Si/SiGe quantum dots
Spin Qubit Leapfrogging: Dynamics of shuttling electrons on top of another
Scaling of silicon spin qubits under correlated noise
Mapping g-factors and complex intervalley coupling in Si/SiGe by conveyor-mode shuttling
Exact Multi-Valley Envelope Function Theory of Valley Splitting in Si/SiGe Nanostructures
Weight-four parity checks with silicon spin qubits
Funding History
| Round | Amount |
|---|---|
| Series B | $29M |
| Series B | $100M |
| Series A | $15M |
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