Before quantum computing can solve the world’s most complex problems, we need to build large scale systems with reliable results in a world full of noise, interference and constraints.
OUR ANSWER:
Nuclear-spin qubits made from neutral atoms
It starts with a MORE RELIABLE QUBIT
Qubits made from superconductors and trapped ions have limitations. We’ve achieved the world’s longest coherence times by using the most efficient and scalable quantum building block: naturally-occurring quantum states of alkaline earth elements.
The result? A more stable platform to perform accurate error correction.
At the heart of Phoenix, we’re trapping and controlling individual atoms with optical tweezers in free space at room temperature. With a large array of highly stable qubits, users can build quantum circuits with readily-available quantum software developer toolkits.
Complex problems need large-scale quantum systems that can compute enormous problems at lightning speed.
We're obsessed with helping our partners in science, business and technology realize the quantum advantage and making quantum real by quickly scaling our systems to thousands of qubits—and beyond.
"Atom Computing has emerged as the dark horse to lead the race in the quantum computing industry, proving that resources or capital are not sole catalysts for a technological breakthrough in quantum computing. Their neutral atom based system with individually-controlled, wireless qubits and extremely long coherence times is accelerating quantum computing into the commercial age."
Atom Computing's CEO Rob Hays joins André M. König and Denise Ruffner to put a fresh perspective on a new quantum computing modality: nuclear-spin qubits from alkaline earth elements.
