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Unravelling Coronal Mass Ejections from Our Solar System’s Origin

Young stars ejecting plasma could give us clues into the Sun’s past Kyoto, Japan — Down here on Earth we don’t usually notice, but the Sun is frequently ejecting huge masses of plasma into space. These are called coronal mass ejections (CMEs). They often occur together with sudden brightenings called flares, and sometimes extend far enough to disturb Earth’s magnetosphere, generating space weather phenomena including auroras or geomagnetic storms, and even damaging power grids on occasion. Scientists believe that when…

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Physics & Astronomy

Thermal Insulation Advances for Quantum Technologies Explained

Thermal insulation is not only important for buildings, but also in quantum technologies. While insulation panels around a house keep the heat inside, quantum devices require insulation against heat from the outside world, as many quantum effects are only stable at low temperatures. What is needed are materials with extremely low thermal conductivity that are also compatible with the materials used in quantum technology. Novel sintering process A team led by Dr Klaus Habicht from HZB has now taken a…

Physics & Astronomy

Spin Control Enhances Electron Alignment in Iron-Based Superconductor

Electronic nematicity, thought to be an ingredient in high temperature superconductivity, is primarily spin driven in FeSe finds a study in Nature Physics. Researchers from PSI’s Spectroscopy of Quantum Materials group together with scientists from Beijing Normal University have solved a puzzle at the forefront of research into iron-based superconductors: the origin of FeSe’s electronic nematicity. Using Resonant inelastic X-ray scattering (RIXS) at the Swiss Light Source (SLS), they discovered that, surprisingly, this electronic phenomenon is primarily spin driven. Electronic…

Physics & Astronomy

High-Speed Plasma Turbulence Discovered: A New Insight

New insights into understanding turbulence in fusion plasmas. Results shown in this article were published in a scientific journal of the Nature publishing group, Scientific Reports. In order to achieve a fusion power plant, it is necessary to stably confine a plasma of more than 100 million degrees Celsius in a magnetic field and maintain it for a long time. A research group led by Assistant Professor Naoki Kenmochi, Professor Katsumi Ida, and Associate Professor Tokihiko Tokuzawa of the National…

Physics & Astronomy

Webb Telescope Prepares for Solar System Exploration

As NASA’s James Webb Space Telescope moves through the final phases of commissioning its science instruments, we have also begun working on technical operations of the observatory.  While the telescope moves through space, it will constantly find distant stars and galaxies and point at them with extreme precision to acquire images and spectra. However, we also plan to observe planets and their satellites, asteroids, and comets in our solar system, which move across the background stars of our galaxy. Webb needs to…

Physics & Astronomy

Ions and Rydberg Atoms: Unveiling a Unique Molecular Bond

Researchers at the 5th Physical Institute of the University of Stuttgart have verified a novel binding mechanism forming a molecule between a tiny charged particle and in atomic measures gigantic Rydberg atom. The scientists could observe spatially resolved the molecule with the help of a self-build ion microscope. The well-known journal “Nature” published the results on May 18, 2022. When single particles like atoms and ions bond, molecules emerge. Such bonds between to particles can arise if they have for…

Physics & Astronomy

Algorithms Enhance Metalens Design for Complex Applications

New approach paves the way for larger, more complex metalenses. Compact and lightweight metasurfaces — which use specifically designed and patterned nanostructures on a flat surface to focus, shape and control light — are a promising technology for wearable applications, especially virtual and augmented reality systems. Today, research teams painstakingly design the specific pattern of nanostructures on the surface to achieve the desired function of the lens, whether that be resolving nanoscale features, simultaneously producing several depth-perceiving images or focusing…

Physics & Astronomy

New 2D Photodetector Offers Fast, Broadband Photoresponse

Recently, a collaborated team led by Prof. LI Liang and Prof. LI Guanghai at the Institute of Solid State Physics (ISSP), Hefei Institutes of Physical Science (HFIPS), Chinese Academy of Sciences (CAS), together with Prof. YAN Feng from Hong Kong Polytechnic University (PolyU) developed a new 2D-based photodetector, featuring on ultrafast photoresponse and broadband detection capabilities. The photodetector, which was introduced in a paper recently published in ACS Nano, was made from layered ternary telluride InSiTe3. Photodetectors with broadband detection capabilities…

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Wireless Real-Time Control of Machine Tools with 5G

… with digital twin utilizing 5G technology. 5G technology is intended to accelerate data transmission, therefore it is of interest for industry. For example, it could be used to centralize the control of several machines at the same time. A team of researchers at the Technische Universität Kaiserslautern (TUK) is working on making the technology ready for application in manufacturing. For this purpose, a digital twin is being used to control a machine in real time. At the Hannover Messe,…

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Autonomous Vehicles Transforming Construction and Agriculture

… in the field, on construction sites and in vineyards. Autonomous driving plays an important role in the commercial vehicle sector. Tractors driving autonomously across fields or excavators digging a hole on their own. The range of applications is wide. Researchers at the Robotics Research Lab at Technische Universität Kaiserslautern (TUK) are working on how such vehicles can be adapted to the respective field of application. The team will be presenting their work at the Hannover Messe from 30 May…

Physics & Astronomy

New Insights on Quantum Magnets: Spin Chains in Motion

For the first time, researchers have succeeded in observing a new transport phenomenon in spin chains under the microscope – with surprising results: the movement in the quantum world resembles certain phenomena known from everyday life like the form of coffee stains on a tablecloth. The behaviour of microscopic quantum magnets has long been a subject taught in lectures in theoretical physics. However, investigating the dynamics of systems that are far out of equilibrium and watching them “live” has been…

Physics & Astronomy

Measuring Quantum Properties Without Destroying States

New experimental work establishes how quantum properties of mechanical quantum systems can be measured without destroying the quantum state. When thinking about quantum mechanical systems, single photons and well-​isolated ions and atoms may spring to mind, or electrons spreading through a crystal. More exotic in the context of quantum mechanics are genuinely mechanical quantum systems; that is, massive objects in which mechanical motion such as vibration is quantized. In a series of seminal experiments, quintessential quantum-​mechanical features have been observed…

Physics & Astronomy

Boosting Efficiency in Optical Quantum Gates for Future Computing

Future quantum computers are expected not only to solve particularly tricky computing tasks, but also to be connected to a network for the secure exchange of data. In principle, quantum gates could be used for these purposes. But until now, it has not been possible to realise them with sufficient efficiency. By a sophisticated combination of several techniques, researchers at the MPQ have now taken a major step towards overcoming this hurdle. For decades, computers have been getting faster and…

Physics & Astronomy

Fractal Drive: Boosting Light Speed with Micro-Structured Materials

Researchers from the University of Rostock have developed a novel type of micro-structured material that enhances the speed of light signals while keeping them protected from scattering. Their discovery will be published online by the renowned journal “Science” on Thursday, 12 May, 2022. Photonic topological insulators (PTIs) are artificial materials that conduct light along their edges, yet block it from traversing their interior. These “superconductors for photons” have fascinated Prof. Alexander Szameit of the University of Rostock for a long…

Physics & Astronomy

Quantum Particles Fly Like Bees: New 51-Atom Discovery

A quantum system consisting of only 51 charged atoms can assume more than two quadrillion different states. Calculating the system’s behavior is a piece of cake for a quantum simulator. Yet even with today’s supercomputers it is almost impossible to verify the result. A research team from the University of Innsbruck and the Technical University of Munich (TUM) has now shown how these systems can be described using equations from the 18th century. At first glance, a system consisting of…

Physics & Astronomy

Quantum One-Way Streets: Advancing Topological Insulator Qubits

Very thin wires made of a topological insulator could enable highly stable qubits, the building blocks of future quantum computers. Scientists see a new result in topological insulator devices as an important step towards realizing the technology’s potential. An international group of scientists have demonstrated that wires more than 100 times thinner than a human hair can act like a quantum one-way street for electrons when made of a peculiar material known as a topological insulator. The discovery opens the…

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Laser Bursts Enable Fastest Logic Gates for Ultrafast Computing

Researchers at Rochester and Erlangen have taken a decisive step toward creating ultrafast computers. A long-standing quest for science and technology has been to develop electronics and information processing that operate near the fastest timescales allowed by the laws of nature. A promising way to achieve this goal involves using laser light to guide the motion of electrons in matter, and then using this control to develop electronic circuit elements—a concept known as lightwave electronics. Remarkably, lasers currently allow us…

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