Engineers Demonstrate Quantum Integrated Circuit Made Up of Just a Few Atoms
Engineers in Sydney have demonstrated a quantum integrated circuit made up of just a few atoms. By precisely controlling the quantum states of the atoms, the new processor can simulate the structure and properties of molecules in a way that could unl.....»»
How Geometry Revealed Quantum Memory
The unexpected discovery of a geometric phase shows how math and physics are tightly intertwined.....»»
Are Alternate Timelines Real? Quantum Physics Explains
The multiverse offers no escape from our reality—which might be a very good thing.....»»
Scientists Have Pushed the Schrödinger’s Cat Paradox to New Limits
A research team in China has held atoms in a state of quantum superposition for 23 minutes, suggesting tantalizing new possibilities in research and quantum computing......»»
IBM boosts the amount of computation you can get done on quantum hardware
Incremental improvements across the hardware and software stacks add up. There's a general consensus that we won't be able to consistently perform sophisticated quantum calculatio.....»»
How "clean" does a quantum computing test facility need to be?
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 i.....»»
How are nanostructures created? Imaging techniques unveil secrets of electrodeposition
Metallic nanoparticles, consisting of a few to several thousand atoms or simple molecules, are attracting significant interest. Electrodes coated with layers of nanoparticles (nanolayers) are particularly useful in areas such as energy production, se.....»»
Unique magnetic properties of 2D triangular lattice materials have potential applications for quantum computing
Researchers from a large international team, including ANSTO, have investigated the magnetic properties of two unique 2D triangular lattice antiferromagnetic materials (2D-TLHAF) using various neutron scattering techniques......»»
Save up to 40% with the Sony WH-CH720N Headphones!
The headphones come with a rather lightweight design, Sony's integrated V1 processor and noise-cancelling duties. The post Save up to 40% with the Sony WH-CH720N Headphones! appeared first on Phandroid. While Sony’s premiere flagship.....»»
The Incredible Power of Quantum Memory
Researchers are exploring new ways that quantum computers will be able to reveal the secrets of complex quantum systems......»»
Implementing topologically ordered time crystals on quantum processors
In a new study published in Nature Communications, scientists have implemented the topologically ordered time crystal on a quantum processor for the first time......»»
Two-faced membrane channel provides a simple, efficient way to separate oil and water
A team of chemists and engineers in China has developed a new, efficient way to separate oil and water mixtures. In their paper published in the journal Science, the group describes how they developed their new technique, how it works and the many po.....»»
Security Bite: Mechanics of Apple CarPlay
9to5Mac Security Bite is exclusively brought to you by Mosyle, the only Apple Unified Platform. Making Apple devices work-ready and enterprise-safe is all we do. Our unique integrated approach to management and security combines state-of-the-art App.....»»
Lab-cultured plant yogurt rivals dairy creaminess
Food engineers have harnessed the power of lupins (legumes) to create a yogurt that rivals dairy in taste and texture while delivering more nutrition than typical plant-based yogurts......»»
Quantum vortices confirm superfluidity in supersolid
Supersolids are a new form of quantum matter that has only recently been demonstrated. The state of matter can be produced artificially in ultracold, dipolar quantum gases. A team led by Innsbruck physicist Francesca Ferlaino has now demonstrated a m.....»»
Kagome superconductor breaks the rules at record-breaking temperatures
Using muon spin rotation at the Swiss Muon Source SmS, researchers at the Paul Scherrer Institute (PSI) have discovered that a quantum phenomenon known as time-reversal symmetry breaking occurs at the surface of the Kagome superconductor RbV3Sb5 at t.....»»
A human topological insulator: Researchers use choreographed dance to explain quantum materials
Science can be difficult to explain to the public. In fact, any subfield of science can be difficult to explain to another scientist who studies in a different area. Explaining a theoretical science concept to high school students requires a new way.....»»
Scientists discover all-optical nuclear magnetic resonance analog with quantum fluids of light
Researchers from Skoltech, the University of Warsaw, and the University of Iceland have demonstrated that by optical means it is possible to excite and stir an exciton-polariton condensate, which emits a linearly polarized light with a polarization a.....»»
Successful demonstration of a commercial cryogenic radio frequency power sensor paves way for quantum computing
Radio frequency (RF) and microwave power measurements are widely used to support applications across space, defense, and communication. These precise measurements enable engineers to accurately characterize waveforms, components, circuits, and system.....»»
Researchers are developing the next generation of sensors to improve horse welfare
While talking to horses and other animals seems like a far-fetched fantasy, University of Missouri engineers are developing technology that puts us one step closer to that reality......»»
Revealing the superconducting limit of twisted bilayer graphene
Graphene is a simple material containing only a single layer of carbon atoms, but when two sheets of it are stacked together and offset at a slight angle, this twisted bilayer material produces numerous intriguing effects, notably superconductivity......»»