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Physics & Astronomy
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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

Exploring Quantum Fluids: Insights into Superfluidity

‘Sloshing’ of a quantum fluid comprised of light and matter reveals superfluid properties. An Australian-led team of physicists have successfully created sloshing quantum liquids in a ‘bucket’ formed by containment lasers. “These quantum fluids are expected to be as wavy as the oceans, but catching clear pictures of the waves is an experimental challenge,” says lead author Dr Eliezer Estrecho. Led by the Australian National University (ANU), the team serendipitously observed the wavy motion of the quantum fluid in an…

Physics & Astronomy

Supercomputer Reconstructs Early Universe Using 4000 Simulations

Astronomers have tested a method for reconstructing the state of the early Universe by applying it to 4000 simulated universes using the ATERUI II supercomputer at the National Astronomical Observatory of Japan (NAOJ). They found that together with new observations the method can set better constraints on inflation, one of the most enigmatic events in the history of the Universe. The method can shorten the observation time required to distinguish between various inflation theories. Just after the Universe came into…

Physics & Astronomy

High-Resolution Imaging Technique for Semiconductor Insights

A research team at Friedrich Schiller University Jena is developing a high-resolution imaging technique that can be used to determine internal structures in materials and their chemical composition in a non-destructive manner and with nanometre precision Images provide information – what we can observe with our own eyes enables us to understand. Constantly expanding the field of perception into dimensions that are initially hidden from the naked eye, drives science forward. Today, increasingly powerful microscopes let us see into the…

Information Technology

Enhanced Graphene Modulators Boost Next-Gen Datacom Performance

Over the past years, global data traffic has experienced a boom, with over 12.5 billion connected devices all over the world. The current world-wide deployment of the 5G telecommunications standard is triggering the need for smaller devices with enhanced performances, such as higher speed, lower power consumption and reduced cost as well as easier manufacturability. In search for the appropriate technology, photonic devices emerged as the leading technology for the evolution of such information and communication technologies, already surpassing the…

Physics & Astronomy

Cyanobacteria: A Key to Astronaut Survival on Mars

Staying long-term Leading space agencies aspire astronaut missions to Mars in the future. These are designed for a long-term stay, which poses new challenges for science: In addition to a habitat, for example, the few materials brought from Earth must be used efficiently and sustainably to equip and feed the astronauts. Humboldt fellow Cyprien Verseux from ZARM at the University of Bremen has now published initial research results at frontiers that indicate that cyanobacteria can reproduce excellently under Martian conditions…

Excitons: Understanding Their Dual Nature in Ultrafast Dynamics

Excitons are quasiparticles which can transport energy through solid substances. This makes them important for the development of future materials and devices – but more research is needed to understand their fundamental behavior and how to manipulate it. Now an international research team involving theoreticians at the MPSD has discovered that an exciton can simultaneously adopt two radically different characters when it is stimulated by light. Their work, now published in Nature Communications, yields crucial new insights for current and…

Physics & Astronomy

Quantum Computing Enhances Particle Process Simulations

Berkeley Lab team models parton showers using a quantum algorithm. A team of researchers at Lawrence Berkeley National Laboratory (Berkeley Lab) used a quantum computer to successfully simulate an aspect of particle collisions that is typically neglected in high-energy physics experiments, such as those that occur at CERN’s Large Hadron Collider. The quantum algorithm they developed accounts for the complexity of parton showers, which are complicated bursts of particles produced in the collisions that involve particle production and decay processes….

Physics & Astronomy

Scientists Manipulate Magnets at Atomic Scale for Data Tech

Fast and energy-efficient future data processing technologies are on the horizon after an international team of scientists successfully manipulated magnets at the atomic level. Physicist Dr Rostislav Mikhaylovskiy from Lancaster University said: “With stalling efficiency trends of current technology, new scientific approaches are especially valuable. Our discovery of the atomically-driven ultrafast control of magnetism opens broad avenues for fast and energy-efficient future data processing technologies essential to keep up with our data hunger.” Magnetic materials are heavily used in modern…

Physics & Astronomy

NASA’s TESS Discovers Trio of New Worlds in Young Star System

Using observations from NASA’s Transiting Exoplanet Survey Satellite (TESS), an international team of astronomers has discovered a trio of hot worlds larger than Earth orbiting a much younger version of our Sun called TOI 451. The system resides in the recently discovered Pisces-Eridanus stream, a collection of stars less than 3% the age of our solar system that stretches across one-third of the sky. The planets were discovered in TESS images taken between October and December 2018. Follow-up studies of…

Physics & Astronomy

Testing New Physics Rules on Quantum Computers

Simulation of non-Hermitian quantum mechanics using a quantum computer goes beyond centuries old conventions. Aalto researchers have used an IBM quantum computer to explore an overlooked area of physics, and have challenged 100 year old cherished notions about information at the quantum level. The rules of quantum physics – which govern how very small things behave – use mathematical operators called Hermitian Hamiltonians. Hermitian operators have underpinned quantum physics for nearly 100 years but recently, theorists have realized that it…

Physics & Astronomy

New Insights on Forming Intermediate-Mass Exoplanets

Scientists of the Universities of Zurich and Cambridge, associated with the Swiss National Centre of Competence in Research PlanetS, suggest a new explanation for the abundance in intermediate-mass exoplanets – a long-standing puzzle of Astronomy. In the last 25 years, scientists have discovered over 4000 planets beyond the borders of our solar system. From relatively small rock and water worlds to blisteringly hot gas giants, the planets display a remarkable variety. This variety is not unexpected. The sophisticated computer models,…

Information Technology

5G for more real-time communication …

… between machines, plants and cloud systems thanks to Time Sensitive Networking Being able to reliably and safely control and regulate highly dynamic production systems still appears to be a challenge for many companies. Edge and cloud systems are gaining in importance, but even today there is still a lack of appropriate equipment and infrastructure to integrate existing machines and plants into digital IT landscapes in accordance with the industrial requirements. To this end, the Fraunhofer Institute for Production Technology…

Exploring Quantum Causal Loops in Science and Society

Causal reasoning is ubiquitous – from physics to medicine, economics and social sciences, as well as in everyday life. Whenever we press the button, the bell rings, and we think that the pressing of the button causes the bell to ring. Normally, causal influence is assumed to only go one way – from cause to effect – and never back from the effect to the cause: the ringing of the bell does not cause the pressing of the button that…

Quantum Computing Unlocks New Insights in Magnetic Materials

A multi-institutional team became the first to generate accurate results from materials science simulations on a quantum computer that can be verified with neutron scattering experiments and other practical techniques. Researchers from the Department of Energy’s Oak Ridge National Laboratory; the University of Tennessee, Knoxville; Purdue University and D-Wave Systems harnessed the power of quantum annealing, a form of quantum computing, by embedding an existing model into a quantum computer. Characterizing materials has long been a hallmark of classical supercomputers,…

Physics & Astronomy

Optimizing MAX Phase Smelting: A New Era in Materials Science

MAX-phases are the new promising class of artificially created compounds that started to be extensively studied in the last two decades. They are a family of ternary layered compounds with the general formula Mn+1AXn (n = 1, 2, 3 …), where M is an early transition metal (Sc, Ti, V, Cr, et cetera; elements from the left side of the d-block of the periodic table from group III to group VII); A — an element from group IIIA or IVA…

Physics & Astronomy

New Modifier Boosts Perovskite Solar Cell Efficiency

The research team of NUST MISIS has presented an improved structure of perovskite solar cells. Scientists have modified perovskite-based solar cells using MXenes — thin two-dimensional titanium carbides with high electrical conductivity. The MXenes-based modified cells showed superior performance, with power conversion efficiency exceeding 19% (the reference demonstrated 17%) and improved stabilized power output with respect to reference devices. The results have been published in the Nano energy international scientific journal. Perovskite solar cells are promising alternative energy technology worldwide….

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