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Mar 9, 2024
3D reflectors help boost data rate in wireless communications
Posted by Shailesh Prasad in categories: computing, engineering, internet
The next generation of wireless communication not only requires greater bandwidth at higher frequencies – it also needs a little extra time.
Cornell researchers have developed a semiconductor chip that adds a necessary time delay so signals sent across multiple arrays can align at a single point in space, and without disintegrating. The approach will enable ever-smaller devices to operate at the higher frequencies needed for future 6G communication technology.
Continue reading “3D reflectors help boost data rate in wireless communications” »
Mar 9, 2024
20.3-inch foldable MacBook expected in 2027
Posted by Shailesh Prasad in category: mobile phones
A new leak suggests Apple’s only foldable with a development schedule and release is a 20.3-inch MacBook that would enter mass production in 2027.
Apple’s first foldable could be a MacBook instead of an iPad or iPhone. Save your jokes — we already know the MacBook folds shut with hinges.
A post on X from Ming-Chi Kuo states that rumors around Apple mass producing a foldable iPhone or iPad by 2026 are not accurate. Instead, Apple’s only foldable with a development scheduled is a 20.3-inch MacBook due in 2027.
Mar 9, 2024
New superconducting device could boost quantum tech
Posted by Shailesh Prasad in categories: computing, quantum physics
Superconducting circuits, which conduct electricity without resistance, are among the most promising technologies for quantum computing and ultrafast logic circuits. However, finding a practical way to work with these materials that require extremely cold temperatures has been a challenge.
In a step toward that goal, a team of researchers led by Prof. Hong Tang developed and successfully demonstrated a device that presents a viable solution in transferring a very weak signal from a computing device stored at cryogenic temperatures to room temperature electronics to achieve a fast data transfer with very low energy consumption. The results are published in Nature Photonics.
The practical use of superconducting circuits requires connecting them to room temperature electronics. But doing so has largely relied on coaxial cables, which have a limited bandwidth and limited thermal conductivity – two factors that negate the benefits of superconducting circuits.
Mar 9, 2024
Cognition and Memory after Covid-19 in a Large Community Sample
Posted by Saúl Morales Rodriguéz in category: biotech/medical
Original Article from The New England Journal of Medicine — Cognition and Memory after Covid-19 in a Large Community Sample.
Mar 9, 2024
Evidence of phonon chirality from impurity scattering in the antiferromagnetic insulator strontium iridium oxide
Posted by Saúl Morales Rodriguéz in categories: materials, physics
The thermal hall effect (THE) is a physical phenomenon characterized by tiny transverse temperature differences occurring in a material when a thermal current passes through it and a perpendicular magnetic field is applied to it. This effect has been observed in a growing number of insulators, yet its underlying physics remains poorly understood.
Researchers at Université de Sherbrooke in Canada have been trying to identify the mechanism behind this effect in different materials. Their most recent paper, published in Nature Physics, specifically examined this effect in the antiferromagnetic insulator strontium iridium oxide (Sr2IrO4).
“Our current research activity on the THE in insulators started with our discovery of a large THE in cuprate superconductors,” Louis Taillefer, co-author of the paper, told Phys.org.
Mar 9, 2024
When the music changes, so does the dance: Controlling cooperative electronic states in kagome metals
Posted by Saúl Morales Rodriguéz in categories: energy, media & arts
Playing a different soundtrack is, physically speaking, only a minute change of the vibration spectrum, yet its impact on a dance floor is dramatic. People long for this tiny trigger, and as a salsa changes to a tango completely different collective patterns emerge.
Electrons in metals tend to show only one behavior at zero temperature, when all kinetic energy is quenched. One needs to frustrate the electronic interaction to break the dominance of one particular electronic order and allow multiple possible configurations. Recent results published in Nature Physics on kagome nets suggest that this triangular lattice is quite effective at doing so.
Named after the Japanese bamboo-basket woven pattern, a two-dimensional (2D) kagome lattice is constructed by a series of corner-sharing triangles. When each corner is occupied with magnetic moments with antiferromagnetic correlations, the nearest-neighbor interactions favor anti-aligned spins.
Mar 9, 2024
Researchers discover tunable room-temperature nonlinear Hall effect in bismuth thin films
Posted by Saúl Morales Rodriguéz in categories: computing, quantum physics
A research team from the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) and the University of Salerno in Italy has discovered that thin films of elemental bismuth exhibit the so-called non-linear Hall effect, which could be applied in technologies for the controlled use of terahertz high-frequency signals on electronic chips.
Bismuth combines several advantageous properties not found in other systems to date, as the team reports in Nature Electronics. In particular, the quantum effect is observed at room temperature. The thin-layer films can be applied even on plastic substrates and could therefore be suitable for modern high-frequency technology applications.
“When we apply a current to certain materials, they can generate a voltage perpendicular to it. We physicists call this phenomenon the Hall effect, which is actually a unifying term for effects with the same impact, but which differ in the underlying mechanisms at the electron level. Typically, the Hall voltage registered is linearly dependent on the applied current,” says Dr. Denys Makarov from the Institute of Ion Beam Physics and Materials Research at HZDR.
Mar 9, 2024
Newly discovered protein prevents DNA triplication
Posted by Saúl Morales Rodriguéz in categories: biotech/medical, chemistry, genetics
Every time a cell divides, its DNA is duplicated so that the two daughter cells have the same genetic material as their parent. This means that, millions of times a day, a biochemical wonder takes place in the body: the copying of the DNA molecule. It is a high-precision job carried out by specific proteins and includes systems to protect against potential errors that could lead to diseases such as cancer.
One of these anti-failure systems has just been discovered by researchers in the DNA Replication Group at the Spanish National Cancer Research Centre (CNIO), led by Juan Méndez. It is based on a protein that ensures that DNA is copied only once, as it should be, and not twice or more.
The work is published in The EMBO Journal.
Mar 9, 2024
Multiple spacecraft tell the story of one giant solar storm
Posted by Saúl Morales Rodriguéz in categories: particle physics, satellites
April 17, 2021, was a day like any other day on the sun, until a brilliant flash erupted and an enormous cloud of solar material billowed away from our star. Such outbursts from the sun are not unusual, but this one was unusually widespread, hurling high-speed protons and electrons at velocities nearing the speed of light and striking several spacecraft across the inner solar system.
In fact, it was the first time such high-speed protons and electrons—called solar energetic particles (SEPs)—were observed by spacecraft at five different, well-separated locations between the sun and Earth as well as by spacecraft orbiting Mars. And now these diverse perspectives on the solar storm are revealing that different types of potentially dangerous SEPs can be blasted into space by different solar phenomena and in different directions, causing them to become widespread.
“SEPs can harm our technology, such as satellites, and disrupt GPS,” said Nina Dresing of the Department of Physics and Astronomy, University of Turku in Finland. “Also, humans in space or even on airplanes on polar routes can suffer harmful radiation during strong SEP events.”