Researchers at Oxford University have successfully teleported quantum information between two separate processors, a major step towards building practical quantum computers.
Research ers at the University of Oxford have achieved a significant breakthrough in quantum computing by successfully 'teleporting' information between two separate processors located approximately two meters apart. Contrary to popular depictions of science fiction, this teleportation doesn't involve physically transporting objects; instead, it involves transferring quantum information instantaneously without the need for traditional physical signals.
This advancement has generated considerable excitement within the scientific community, as it brings us closer to realizing the potential of quantum computers – machines capable of performing calculations at speeds far surpassing those of conventional computers. \This breakthrough represents a crucial step towards building practical quantum computers. The researchers achieved this by linking two individual processors to function as a single, interconnected quantum computer. This finding suggests that powerful quantum computers may not necessarily require a single, massive device but could be composed of numerous smaller units working in concert. This modular approach would significantly simplify the construction and utilization of quantum computers. \The immense processing power of quantum computers stems from their ability to leverage the principles of quantum mechanics. A prime example of this capability was demonstrated last year by Google, when their quantum chip, Willow, completed a calculation in minutes that would have taken the world's most advanced supercomputer an estimated 10 septillion years. To put this into perspective, 10 septillion years is vastly longer than the age of the universe itself. No conventional computer could even begin to approach solving such a complex problem within a human timescale.\The research team's findings, published in the prestigious journal Nature, mark a significant milestone in the field of quantum computing. They demonstrate that the teleportation of logical gates – the fundamental operations that manipulate quantum bits – is now achievable. This opens up new possibilities for constructing more complex and powerful quantum networks. While the development of practical quantum computers remains a formidable challenge, this breakthrough provides a crucial foundation for future advancements.
QUANTUM COMPUTING TELEPORTATION OXFORD UNIVERSITY RESEARCH BREAKTHROUGH
United Kingdom Latest News, United Kingdom Headlines
Similar News:You can also read news stories similar to this one that we have collected from other news sources.
Quantum Teleportation Achieved Between Supercomputers, Paving Way for Quantum InternetResearchers at the University of Oxford have successfully demonstrated quantum teleportation between two powerful quantum supercomputers, marking a significant milestone in the development of quantum computing. This breakthrough allows for the transfer of quantum information, the building blocks of quantum algorithms, across a network link, effectively creating a rudimentary 'quantum network'. This paves the way for a future 'quantum internet' with unprecedented computational capabilities.
Read more »
Newcastle United's Stadium Dilemma: A Quantum Leap for a Global GiantA two-year feasibility study exploring the future of Newcastle United's stadium is reaching its conclusion. The club faces a crucial decision: renovate St James' Park, rebuild on the existing site, or construct a new stadium elsewhere. The choice will shape the club's ambition and its ability to compete with Europe's elite.
Read more »
Oxford Researchers Achieve Quantum Teleportation Milestone, Paving the Way for a Quantum InternetA team of researchers at the University of Oxford has successfully demonstrated quantum teleportation using a powerful quantum supercomputer, marking a significant step towards building a scalable quantum internet. This breakthrough achieved the transfer of logical gates, the fundamental building blocks of quantum algorithms, between separate quantum computers.
Read more »
Blue Origin's New Glenn Rocket Set for Launch: A Giant Leap in the Space RaceBlue Origin's New Glenn rocket is poised to launch, marking a significant step in the company's ambition to become a major player in the space industry. The partially reusable rocket, capable of carrying heavy payloads into orbit and beyond, aims to rival SpaceX's Falcon 9 dominance. This inaugural flight will test the rocket's performance and pave the way for future missions, including satellite deployments and potential human spaceflight.
Read more »
First Quantum Minerals Adjusts Production Guidance, Focuses on Zambia Amid Panama Mine HaltFirst Quantum Minerals released preliminary production figures for 2024 and updated its guidance for 2025 to 2027. The company is prioritizing its Zambian operations as it anticipates the Panama mine will remain suspended due to ongoing legal challenges. Production forecasts for 2025 and 2026 have been lowered due to a conservative ramp-up at the Kansanshi mine and scheduling delays at the Sentinel mine. First Quantum projected copper production of 430,000-490,000t for 2027, along with 200,000-225,000oz of gold and 30,000-40,000t of nickel.
Read more »
Nvidia plots Quantum Day at GTC 2025 – for tech it called a distant dreamDon't believe the hype? GPU maker jumps on the bandwagon anyway
Read more »