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Archive for the ‘quantum physics’ category: Page 22

Nov 19, 2024

Quantum time crystals could be used to store energy

Posted by in categories: energy, quantum physics

The weird thermodynamics found in time crystals could be harnessed to store energy in a quantum battery-like device.

By Karmela Padavic-Callaghan

Nov 19, 2024

Quantum miracle: Scientists create world’s first mechanical qubit

Posted by in categories: innovation, quantum physics

Researchers at the Swiss Federal Institute of Technology (ETH) in Zurich have developed the first-ever fully functional mechanical qubit. This incredible quantum innovation is a two-in-one system combining the abilities of a mechanical oscillator and a superconducting qubit.

Compared to the traditional virtual qubits that are created using multiple physical qubits and error-correcting codes to protect quantum information, mechanical qubits are real, physical systems that don’t need this extra layer of protection.

Nov 19, 2024

Nvidia Is Helping Google Design Quantum Computing Processors

Posted by in categories: quantum physics, robotics/AI

Nvidia Corp., the chipmaker at the center of a boom in artificial intelligence use, is teaming up with Alphabet Inc.’s Google to pursue another technology once relegated to science fiction: quantum computing.

Nov 19, 2024

SDT, Anyon Technologies Plan Collaboration on 20-Qubit Quantum System

Posted by in categories: finance, quantum physics, robotics/AI

The initial product from this collaboration will be a 20-qubit system integrated with NVIDIA’s Grace Hopper Superchip, facilitating hybrid quantum-classical computing. This integration is expected to drive advancements in various fields, including financial services and artificial intelligence.

Through this joint venture, SDT and Anyon Technologies aim to establish a unique and robust partnership in the Asian quantum computing sector, leveraging their combined expertise to lead the commercialization and supply of superconducting quantum computers in the region.

Nov 19, 2024

How ‘clean’ does a quantum computing test facility need to be?

Posted by in categories: computing, quantum physics

Now is the time to banish low-level radioactive energy sources from facilities that house and conduct experiments with superconducting qubits, according to a pair of recently published studies. Significantly improving quantum device coherence times is a key step toward an era of practical quantum computing.

Two complementary articles, published in the journal PRX Quantum and the Journal of Instrumentation, outline which sources of interfering ionizing radiation are most problematic for superconducting quantum computers and how to address them. The findings set the stage for quantitative study of errors caused by radiation effects in shielded underground facilities.

A research team led by physicists at the Department of Energy’s Pacific Northwest National Laboratory, in collaboration with colleagues at MIT’s Lincoln Laboratory, the National Institute of Standards and Technology, along with multiple academic partners, published their findings to assist the quantum computing community to prepare for the next generation of qubit development.

Nov 19, 2024

The future of optical modulators and integrated photonics

Posted by in categories: biotech/medical, quantum physics, robotics/AI

Despite being a mature technology in existence for over several decades, silicon photonic modulators face scrutiny from industry and academic experts. In a recent editorial interview, experts emphasize the need to explore alternatives beyond the traditional platforms. The discussion centers on innovative modulator materials and configurations that could cater to emerging applications in data centers, artificial intelligence, quantum information processing, and LIDAR. Experts also outline the challenges that lie ahead in this field.

Optical and photonic modulators are technologically advanced devices that enable the manipulation of light properties—such as power and phase—based on input signals. Over the decades, scientists have researched and developed silicon photonic modulators with wide-ranging applications, including optical data communication, sensing, biomedical technologies, automotive systems, astronomy, aerospace, and artificial intelligence (AI).

However, these modulators face bandwidth limitations and operational robustness issues stemming from the fundamental properties of silicon and other practical constraints, as highlighted by a panel of leading industry and academic experts in a recent editorial interview.

Nov 19, 2024

Long-lived Schrödinger’s-cat state achieves Heisenberg-limited sensitivity

Posted by in categories: particle physics, quantum physics

A team led by Prof. Lu Zhengtian and Researcher Xia Tian from the University of Science and Technology of China (USTC) realized a Schrödinger-cat state with minute-scale lifetime using optically trapped cold atoms, significantly enhancing the sensitivity of quantum metrology measurements. The study was published in Nature Photonics.

In quantum metrology, particle spin not only serves as a potent probe for measuring magnetic fields, inertia, and a variety of physical phenomena, but also holds the potential for exploring new physics beyond the Standard Model. The high-spin Schrödinger-cat state, a superposition of two oppositely directed and furthest-apart spin states, offers significant advantages for spin measurements.

On one hand, the high spin quantum number amplifies the precession frequency signal. On the other hand, the cat states are insensitive to some environmental interference, thus suppressing measurement noise. However, one major technical challenge in applying cat states in experiments is how to maintain a sufficiently long coherence time.

Nov 19, 2024

Physicists predict exotic form of matter with potential for quantum computing

Posted by in categories: computing, quantum physics

MIT physicists have shown that it should be possible to create an exotic form of matter that could be manipulated to form the qubit (quantum bit) building blocks of future quantum computers that are even more powerful than the quantum computers in development today.

The work builds on a discovery last year of materials that host electrons that can split into fractions of themselves but, importantly, can do so without the application of a magnetic field. The general phenomenon of electron fractionalization was first discovered in 1982 and resulted in a Nobel Prize.

That work, however, required the application of a magnetic field. The ability to create the fractionalized electrons without a magnetic field opens new possibilities for basic research and makes the materials hosting them more useful for applications.

Nov 18, 2024

Monster 4,400-qubit quantum processor is ‘25,000 times faster’ than its predecessor

Posted by in categories: quantum physics, robotics/AI

D-Wave says its new Advantage2 processor, which is designed for complex applications in AI, optimization and data science, is faster and more accurate than its existing 5,000-qubit system.

Nov 18, 2024

Scientists Measure the Speed of Quantum Entanglement in a Groundbreaking Experiment

Posted by in category: quantum physics

In a groundbreaking experiment, scientists have achieved the remarkable feat of measuring the speed of quantum entanglement for the first time. This milestone in quantum physics research unveils new insights into one of nature’s most perplexing phenomena, opening doors to advanced quantum technologies and a deeper understanding of the universe’s fundamental workings.

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