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Archive for the ‘quantum physics’ category: Page 137

Feb 28, 2024

Photon Detectors Rewrite the Rules of Quantum Computing

Posted by in categories: computing, particle physics, quantum physics

Scientists achieve breakthrough in quantum optics with photon detector-based method, paving the way for improved quantum computing.

Scientists at Paderborn University have used a new method to determine the characteristics of optical, i.e. light-based, quantum states. For the first time, they are using certain photon detectors — devices that can detect individual light particles — for so-called homodyne detection. The ability to characterize optical quantum states makes the method an essential tool for quantum information processing. Precise knowledge of the characteristics is important for use in quantum computers, for example. The results have now been published in the specialist journal Optica Quantum.

Advancements in Homodyne Detection.

Feb 27, 2024

Quantum gravity in the can: The holographic principle

Posted by in categories: holograms, quantum physics

It might sound like something from science fiction, but the holographic principle might help us answer the biggest problem in modern physics.

Feb 26, 2024

The 10 Stages of Artificial Intelligence

Posted by in categories: augmented reality, bioengineering, biological, genetics, nanotechnology, quantum physics, Ray Kurzweil, robotics/AI, singularity, transhumanism

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Feb 26, 2024

Resurrecting niobium for quantum science

Posted by in categories: quantum physics, science

For years, niobium was considered an underperformer when it came to superconducting qubits. Now, scientists supported by Q-NEXT have found a way to engineer a high-performing niobium-based qubit and take advantage of niobium’s superior qualities.

When it comes to , niobium is making a comeback.

For the past 15 years, niobium has been sitting on the bench after experiencing a few mediocre at-bats as a core qubit material.

Feb 26, 2024

How to track important changes in a dynamic network

Posted by in categories: biotech/medical, mathematics, quantum physics

Networks can represent changing systems, like the spread of an epidemic or the growth of groups in a population of people. But the structure of these networks can change, too, as links appear or vanish over time. To better understand these changes, researchers often study a series of static “snapshots” that capture the structure of the network during a short duration.

Network theorists have sought ways to combine these snapshots. In a new paper in Physical Review Letters, a trio of SFI-affiliated researchers describe a novel way to aggregate static snapshots into smaller clusters of networks while still preserving the dynamic nature of the system. Their method, inspired by an idea from quantum mechanics, involves testing successive pairs of network snapshots to find those for which a combination would result in the smallest effect on the dynamics of the system—and then combining them.

Importantly, it can determine how to simplify the history of the network’s structure as much as possible while maintaining accuracy. The math behind the method is fairly simple, says lead author Andrea Allen, now a data scientist at Children’s Hospital of Philadelphia.

Feb 26, 2024

Physicists discover a quantum state with a new type of emergent particles: Six-flux composite fermions

Posted by in categories: particle physics, quantum physics

If the fractional quantum Hall regime were a series of highways, these highways would have either two or four lanes. The flow of the two-flux or four-flux composite fermions, like automobiles in this two-to four-flux composite fermion traffic scenario, naturally explains the more than 90 fractional quantum Hall states that form in a large variety of host materials. Physicists at Purdue University have recently discovered, though, that fractional quantum Hall regimes are not limited to two-flux or four-flux and have discovered the existence of a new type of emergent particle, which they are calling six-flux composite fermion.

They have recently published their groundbreaking findings in Nature Communications.

Gabor Csathy, professor and head of the Department of Physics and Astronomy at the Purdue University College of Science, along with Ph.D. students Haoyun Huang, Waseem Hussain, and recent Ph.D. graduate Sean Myers, led this discovery from the West Lafayette campus of Purdue. Csathy credits lead author Huang as having conceived and led the measurements, and having written a large part of the manuscript. All the ultra-low-temperature measurements were completed in Csathy’s Physics Building lab. His lab conducts research on strongly correlated electron , sometimes referred to as topological electron physics.

Feb 26, 2024

Fundamental equation for superconducting quantum bits revised

Posted by in categories: computing, information science, quantum physics

Physicists from Forschungszentrum Jülich and the Karlsruhe Institute of Technology have uncovered that Josephson tunnel junctions—the fundamental building blocks of superconducting quantum computers—are more complex than previously thought.

Just like overtones in a , harmonics are superimposed on the fundamental mode. As a consequence, corrections may lead to quantum bits that are two to seven times more stable. The researchers support their findings with experimental evidence from multiple laboratories across the globe, including the University of Cologne, Ecole Normale Supérieure in Paris, and IBM Quantum in New York.

It all started in 2019, when Dr. Dennis Willsch and Dennis Rieger—two Ph.D. students from FZJ and KIT at the time and joint first authors of a new paper published in Nature Physics —were having a hard time understanding their experiments using the standard model for Josephson tunnel junctions. This model had won Brian Josephson the Nobel Prize in Physics in 1973.

Feb 26, 2024

‘Quantum memory breakthrough’ may lead to a quantum internet

Posted by in categories: internet, quantum physics

A new technique in quantum storage that operates at room temperature could pave the way for a quantum internet.

Feb 26, 2024

Taiwan’s 5-Bit Superconducting Quantum Computer Goes Online

Posted by in categories: computing, quantum physics

Academia Sinica has achieved a significant milestone in the field of computing with the successful development of a 5-bit superconducting quantum computer in Taiwan, marking a notable advancement in quantum technology. This accomplishment positions Taiwan as a key contributor to quantum computing research and development on the global stage.

In an interview with EE Times, Chii-Dong Chen, the principal investigator of Academia Sinica’s research team, emphasized the pivotal role of international collaboration in advancing Taiwan’s quantum technology research and development agenda.

Under the leadership of Chii-Dong Chen and with support from the National Science and Technology Council, Academia Sinica has demonstrated exceptional proficiency in pushing the boundaries of quantum computing technology. Through partnerships with various international teams, Taiwan has established academic collaborations to facilitate the exchange of knowledge and best practices, as well as provide access to resources, expertise and funding opportunities essential for driving innovation in quantum technology.

Feb 26, 2024

New Superconducting ‘Flowermon’ Qubit Boosts Stability of Quantum Information

Posted by in category: quantum physics

Researchers published a paper describing a new superconducting qubit expected to increase coherence times in quantum processors.