IonQ, a leader in the quantum computing industry, has achieved a significant milestone in developing networked quantum systems at scale by demonstrating remote ion-ion entanglement. This breakthrough builds upon the company’s previous achievement of ion-photon entanglement. It marks the second of four milestones required to develop photonic interconnects, a core component of IonQ’s scaling strategy.
The demonstration involved entangling two trapped ion qubits from separate trap wells using entangled photons, establishing a quantum communication link. According to Peter Chapman, President & CEO of IonQ, this progress ensures customers have access to large quantum systems capable of tackling complex problems. Dr. Björn Flatt, Head of Emerging Technologies at IonQ, emphasized the company’s focus on achieving scale by swapping ion-ion entanglement to the QPU. This achievement brings IonQ closer to unlocking massive scale via modularity and photonic interconnects, solidifying its position as a leader in the quantum computing industry.
Remote Ion-Ion Entanglement: A Significant Milestone in Developing Networked Quantum Systems
IonQ, a prominent player in the quantum computing industry, has achieved a significant milestone on scaling its quantum systems by demonstrating remote ion-ion entanglement. This breakthrough validates the first-time entanglement of two qubits in two separate ion traps in a commercial setting.
The demonstration is crucial to developing photonic interconnects, a foundational component of IonQ’s scaling strategy. Photonic interconnects are essential for quantum networking and will enable the connection of multiple quantum systems to form a larger, more powerful network. By achieving remote entanglement, IonQ has showcased its ability to bring this technology to an integration stage within a commercially available, enterprise-grade quantum computer.
IonQ’s world-class R&D team achieved remote entanglement by developing a system to collect photons from two trap wells and routing them to a single detection hub. This critical “point-to-point” step established a quantum communication link, an essential piece in scaling quantum systems. The team’s innovative approach has paved the way for further advancements in photonic interconnects, which will be crucial for unlocking massive scale via modularity.
IonQ’s Scaling Strategy: Balancing Performance, Scale, and Enterprise-Grade Capabilities
IonQ’s unique architecture and technology rely on scaling qubits within a single ion trap and then networking multiple traps together to achieve commercial quantum advantage. The company has made technological and architectural choices by embracing a practical path that balances three core pillars required for commercial advantage: performance, scale, and enterprise-grade capabilities.
IonQ’s approach is focused on delivering high-performance systems capable of solving the world’s largest and most complex commercial and research use cases. The company’s current generation quantum computer, IonQ Forte, boasts 36 algorithmic qubits and is available through all major cloud providers. By making quantum computing more accessible and impactful than ever before, IonQ is poised to unlock new opportunities for every industry.
The Significance of Remote Entanglement in Quantum Computing
Remote entanglement is a critical component of quantum networking, enabling the connection of multiple quantum systems to form a larger, more powerful network. By achieving remote ion-ion entanglement, IonQ has demonstrated its ability to establish a quantum communication link between two separate ion traps.
This breakthrough has significant implications for the development of large-scale quantum systems capable of tackling complex problems. Remote entanglement will enable the creation of a network of quantum computers that can be connected and scaled up to tackle complex problems that are currently unsolvable with classical computers.
IonQ’s Commitment to Pushing the Boundaries of Quantum Computing
IonQ is committed to pushing the boundaries on this technology and bringing photonic interconnects to a technical readiness where they can be integrated in commercially available quantum computers. The company’s focus on scalability, performance, and enterprise-grade capabilities has enabled it to make rapid progress on its journey towards unlocking massive scale via modularity.
With its latest achievements, IonQ is now focused on the next phase for achieving scale – swapping ion-ion entanglement to the QPU. By continuing to innovate and push the boundaries of quantum computing, IonQ is poised to deliver fast, accurate, and accessible quantum computers that will open new opportunities for every industry.
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