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Archive for the ‘quantum physics’ category: Page 361

Aug 19, 2022

Newly discovered magnetic interactions could lead to novel ways to manipulate electron flow

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

Newly discovered magnetic interactions in the Kagome layered topological magnet TbMn6Sn6 could be the key to customizing how electrons flow through these materials. Scientists from the U.S. Department of Energy’s Ames National Laboratory and Oak Ridge National Laboratory conducted an in-depth investigation of TbMn6Sn6 to better understand the material and its magnetic characteristics. These results could impact future technology advancements in fields such as quantum computing, magnetic storage media, and high-precision sensors.

Kagomes are a type of material whose structure is named after a traditional Japanese basket weaving technique. The weave produces a pattern of hexagons surrounded by triangles and vice-versa. The arrangement of the atoms in Kagome metals reproduces the weaving pattern. This characteristic causes electrons within the material to behave in unique ways.

Solid materials have controlled by the characteristics of their electronic band structure. The band structure is strongly dependent on the geometry of the atomic lattice, and sometimes bands may display special shapes such as cones. These special shapes, called topological features, are responsible for the unique ways electrons behave in these materials. The Kagome structure in particular leads to complex and potentially tunable features in the electronic bands.

Aug 19, 2022

Shielding Qubits with Chemistry

Posted by in categories: chemistry, quantum physics

The spin state of molecular qubits can be made more stable by changing the chemical environment in which the qubits sit.

Aug 18, 2022

New quantum technology combines free electrons and photons

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

Faster computers, tap-proof communication, better car sensors—quantum technologies have the potential to revolutionize our lives just as the invention of computers or the internet once did. Experts worldwide are trying to implement findings from basic research into quantum technologies. To this end, they often require individual particles, such as photons—the elementary particles of light—with tailored properties.

However, obtaining individual particles is complicated and requires intricate methods. In a study recently published in the journal Science, researchers now present a new method that simultaneously generates two individual particles in form of a pair.

Aug 18, 2022

Quantum Physics Could Finally Explain Consciousness, Scientists Say

Posted by in categories: neuroscience, quantum physics

Yet, in the newly-created fields of quantum physics and cognitive science, difficult and troubling mysteries still linger, and occasionally entwine. Why do quantum states suddenly resolve when they’re measured, making it at least superficially appear that observation by a conscious mind has the capacity to change the physical world? What does that tell us about consciousness?

Aug 18, 2022

The Hidden Pattern: A Patternist Philosophy of Mind

Posted by in categories: quantum physics, robotics/AI

The Hidden Pattern presents a novel philosophy of mind, intended to form a coherent conceptual framework within which it is possible to understand the diverse aspects of mind and intelligence in a unified way. The central concept of the philosophy presented is the concept of “pattern”: minds and the world they live in and co-create are viewed as patterned systems of patterns, evolving over time, and various aspects of subjective experience and individual and social intelligence are analyzed in detail in this light. Many of the ideas presented are motivated by recent research in artificial intelligence and cognitive science, and the author’s own AI research is discussed in moderate detail in one chapter. However, the scope of the book is broader than this, incorporating insights from sources as diverse as Vedantic philosophy, psychedelic psychotherapy, Nietzschean and Peircean metaphysics and quantum theory. One of the unique aspects of the patternist approach is the way it seamlessly fuses the mechanistic, engineering-oriented approach to intelligence and the introspective, experiential approach to intelligence.

Aug 18, 2022

Led Team Develops New Approach For Building Quantum Computers

Posted by in categories: computing, quantum physics

Scientists have developed small molecules that protect the “quantumness” of qubits, an innovative step that could help to scale up processing power.

Aug 16, 2022

Breaking: Scientists Have Reversed Time with a Quantum Computer

Posted by in categories: computing, quantum physics

Scientists have reversed the direction of time with a quantum computer.

The breakthrough study seems to contradict basic laws of physics and could alter our understanding of the processes governing the universe.

In a development that also represents a major advance in our understanding of quantum computers, by using electrons and the strange world of quantum mechanics, researchers were able to turn back time in an experiment that is the equivalent of causing a broken rack of pool balls to go back into place.

Aug 16, 2022

Scientists blast atoms with Fibonacci laser to make an “extra” dimension of time

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

The new phase of matter, created by using lasers to rhythmically jiggle a strand of 10 ytterbium ions, enables scientists to store information in a far more error-protected way, thereby opening the path to quantum computers that can hold on to data for a long time without becoming garbled. The researchers outlined their findings in a paper published July 20 in the journal Nature (opens in new tab).

Aug 16, 2022

Scientists entangled two different quantum nodes 12.5 km apart from each other

Posted by in category: quantum physics

Aug 16, 2022

A new frontier in quantum science and technology

Posted by in categories: quantum physics, science

Purdue University researchers have unlocked a new area of quantum science and technology by utilizing photons and electron spin qubits to regulate nuclear spins in a two-dimensional material. They used electron spin qubits as atomic-scale sensors to effect the first experimental control of nuclear spin qubits in ultrathin hexagonal boron nitride.

The study could lead to applications such as atomic-scale nuclear magnetic resonance spectroscopy. It could also allow reading and writing quantum information with nuclear spins in 2D materials.