THE PROBLEM
Qbit control is the bottleneck
Quantum computers can already operate systems with more than 1,000 qubits, but current technologies can only reliably control a fraction of them. Free-space optics address some of the problem, but lack the stability, density, and manufacturability required for scalable deployment.
The gAP
Unlocking global computing scalability requires purpose-built Photonic Integrated Controls
Across all quantum modalities - superconducting circuits, trapped ions, neutral atoms, and photonics - the bottleneck is no longer engineering qubit creation, but the infrastructure needed to control, connect, and scale them into usable systems. Integrated photonics are redefining how information is moved and controlled at the quantum level.
OUR MISSION
Linq Photonics
We aim to revolutionise quantum and next-gen computing with our advanced photonic light modulators that enhance performance and support seamless scalability, paving the way for building larger, more powerful quantum computers than ever before. Ultimately enabling our customers to solve the world's most complex challenges within years, not decades..
PRODUCT
Linq MOD100
High-fidelity photonic control with phase and amplitude modulation for hundreds of parallel operations to replace mission-critical free-space optics.
Built for Quantum Engineers
• 100+ independent operations
• Extinction ratios up to 60dB
• Splitting, iltering & multiplexing
• Phase & amplitude control
• Custom wavelengths from 400– 1700nm
• Rapid chip prototyping on various platforms
Supported by
Lets get on the same wavelength
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