Revolutionizing Quantum Computing with Carbon Nanotubes: A Look at C12’s Vision
At the recent Q2B24 presentation, C12’s CEO Pierre Desjardins unveiled an exciting vision for the future of quantum computing. The company is at the forefront of developing scalable, fault-tolerant quantum computers using carbon nanotubes, a material that offers lower error rates and better protection from environmental interference compared to current materials.
One of the key advantages of carbon nanotubes is their ability to create high-quality qubits with minimal charge noise, crucial for maintaining quantum coherence. As Desjardins pointed out, this is a significant step towards building reliable quantum computers that can drive the next big revolution in computing.
C12’s ambitious goal is to release its first five-qubit chip by 2025, with a long-term vision of building large-scale, error-corrected quantum computers using its patented nano-assembly technique. Desjardins emphasized that the company’s approach leverages the exceptional properties of carbon nanotubes to overcome the obstacles in current quantum computing technology.
“Our vision is that all big revolutions in computing start with a material breakthrough,” said Desjardins, highlighting the potential of carbon nanotubes to revolutionize quantum computing, much like silicon did for semiconductors.
Another major advantage of carbon nanotubes is their ability to protect qubits from environmental interference, such as charge noise, which can disrupt quantum operations. This makes carbon nanotubes an ideal material for producing qubits that can maintain their coherence, a critical factor in the development of quantum computers.
C12’s unique manufacturing process, which integrates carbon nanotubes with silicon chips using a patented nano-assembly technique, is key to their strategy. This allows for scalable production, bringing quantum computing one step closer to widespread accessibility.
While C12 is still in the R&D phase, focusing on one- and two-qubit chips, the company aims to release its first five-qubit chip by the end of 2025. Desjardins emphasized that quality, not quantity, is currently the focus, with the long-term goal of scaling up to error-corrected, large-scale quantum computers.
Desjardins firmly believes that carbon nanotubes will play a pivotal role in the future of quantum computing, stating that it is the best material for creating high-quality qubits. With innovative material science and advanced manufacturing techniques, C12 is paving the way for quantum computers that could transform industries ranging from cryptography to drug discovery.