Scalable
Quantum Interconnects.
Atom-compatible, chip-integrated single-photon emitters for quantum networking and distributed quantum computing.
Quantum technology cannot scale without high-speed interconnects.
Quantum computers are progressing rapidly, but quantum interconnect technology is lagging far behind.
The ability to transfer quantum information unlocks quantum datacenters, secure communications, and distributed sensing.
An on-demand photon source for quantum interconnects.
The photon source: the building block of the quantum network.
Every quantum link, between processors, cities, and satellites, starts with a photon source.
Current methods for distributing quantum information are slow and low fidelity.
QLuster engineers single-photon sources for 1000× faster data transfer to unlock quantum technologies.
On-demand photon emission
Deterministic, high-purity, and high-indistinguishability photons.
Atom-compatible
Narrowband, 780 nm photons matched to the Rb D₂ transition — the workhorse of the neutral-atom ecosystem.
Scalable
Chip-integrated, fiber-coupled, small footprint.
A scalable single-photon source is a primary enabler of quantum technologies.
Quantum datacenters
Connect quantum processors into systems large enough to deliver real economic value — drug discovery, materials, optimization, AI.
Quantum networking
The physical layer for quantum key distribution, distributed quantum computing, and the long-haul quantum internet.
Distributed sensing
Entangled photons for next-generation imaging, navigation, and precision measurement beyond the classical limit.
Team
Dr. Christian M. Lange
Founder & CEO
Expert in solid-state photon emitters and nanophotonics. Received a PhD in Physics from Purdue University.
Dr. Jonathan D. Hood
Founder & CTO
Expert in cold atoms and nanophotonics. Faculty in the departments of Physics and Chemistry at Purdue University.