Our Technology

From Crystal to Module

A vertically integrated hBN platform.

We engineer hBN crystals and atomically tailor their emitters to power every room-temperature quantum photonics application — from source material to finished module.

The Problem

Quantum photonics is stuck in the lab.
The reason is temperature.

Today's best single photon sources require cryogenic cooling at or below 4 Kelvin. The cryostats that sustain these temperatures cost $100K–$500K, are bulky, noisy, and have limited lifespans.

They cannot be field-deployed, making edge applications impossible. Until single photons work at room temperature, quantum photonics remains confined to the lab.

≤4K

Cryogenic Systems

Closed-cycle cryostats at 4K or below. $100K–$500K per system. Bulky, noisy, short-lived. No edge deployment.

300K

Room Temperature

Desktop-scale. Field-deployable. Orders of magnitude cheaper. This is where AtomLux operates.

Our Approach

Engineered hBN.
From crystal to module.

Hexagonal boron nitride (hBN) is one of the few materials known to emit single photons at room temperature. The challenge has always been engineering — that's what AtomLux does.

Vertical
Integration

From crystal growth to photonic module — all under one roof.

Want to learn more about our crystal capabilities?

Explore Our Crystals

From Crystal to Module

Quantum photonics is stuck in the lab.The reason is temperature.

Cryogenic Systems

Room Temperature

Engineered hBN.From crystal to module.

Quantum photonics is stuck in the lab.
The reason is temperature.

Engineered hBN.
From crystal to module.