OPTICA MEMBER QuiX Quantum DEMONSTRATES ON-CHIP GENERATION OF GHZ STATES. Listen up. This is a quantum breakthrough, marking a milestone in the road to developing a scalable universal quantum computer.
Dutch QuiX Quantum Technology (a member of both QuantumDelta and PhotonDelta) has achieved a significant milestone in the field of photonic quantum computing. They have successfully demonstrated the on-chip generation of Greenberger-Horne-Zeilinger (GHZ) states, a pivotal element in scaling quantum computing technologies.
GHZ states, which involve the entanglement of three photonic qubits, are foundational in constructing complex entangled structures known as resource states. These states are essential for the execution of quantum computations. The ability to generate and sustain GHZ states, as demonstrated by QuiX Quantum, is a vital step in enhancing the scalability of quantum computers, marking a major advance since the demonstration of a quantum advantage.
Unlike their material-based counterparts, photonic quantum computers utilize flying qubits of light, enabling information processing and transmission at the speed of light. This rapid transmission is facilitated through quantum teleportation, with GHZ states playing a crucial role in maintaining the integrity of this information. The recent achievements by QuiX Quantum confirm the instrumental role of their integrated photonics technology in the roadmap towards universal, utility-scale quantum computers. Distinctively, this technology from Quix operates at room temperature, features minimal losses, and is fully programmable, characteristics that have been commercially available since its launch in 2022.
Dr.-Ing. Stefan Hengesbach, CEO of QuiX Quantum, emphasizes the importance of this development "The creation of GHZ states on our hardware marks a pivotal milestone for photonic quantum computing, moving us closer to realizing a scalable universal quantum computer with flying qubits. This achievement demonstrates our technology's capacity to generate multi-photon entanglement, advancing our roadmap toward large-scale quantum computation."
Dr. Jelmer Renema, Chief Scientist at QuiX Quantum highlights the critical nature of this advancement for the future of scalable photonic quantum computers. "This is a critical step needed in creating scalable photonic quantum computers. The next challenge is now making many of these devices. When comparing one GHZ state to a million GHZ states, consider it the spark needed to create a blazing fire. The more GHZ states a photonic quantum computer contains, the more powerful it becomes.”
More info: Here is a link to the Published Article: https://lnkd.in/dqfDEHzP
QuiX Quantum, a leader in the European quantum computing market, continues to innovate in the development of photonic quantum computing solutions, having made its first sale of this technology to the German Aerospace Center (DLR).
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