![]() Quantum Source plans to utilize the Cavity-QED–generated quantum gates for production of midsize clusters of entangled photons that serve as the resource-state needed for photonic quantum computation. “We think quantum computing has the potential to instigate a tech revolution in entire industries thanks to the enormous, unprecedented computing power,” said Omri Green, partner at Dell Technologies Capital. Furthermore, the fact that the entire system operates at room temperature reduces the complexity and dimensions of their solution. Melamed believes their approach is a substantial departure from other implementations, resulting in a significantly more scalable, compact and manageable system. ![]() Specifically, by utilizing single atoms on a photon chip to both generate single photons and to entangle them into a cluster, we can increase the efficiency of this crucial process by 5 orders of magnitude,” Melamed said. “At Quantum Source, we use unique Cavity-QED–based technology to drastically increase the efficiency of this entangled photonic cluster generation. At present, a quantum system with one million qubits would likely require an area equivalent to that of a basketball court. This necessitates large-scale circuit duplication, as well as the implementation of intricate monitoring and control systems. Per Melamed, one of the key challenges associated with implementing photonics-based quantum computing is the inefficient and probabilistic process required for generating entangled cluster states, which serve as the “fuel” for photonic quantum computers. Register Now Scalable, compact and manageable quantum computers
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