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The deepfakes of Trump and Biden that you are most likely to fall for

New Scientist Feed - Thu, 09/12/2024 - 3:00pm
Experiments show that viewers can usually identify video deepfakes of famous politicians – but fake audio and text are harder to detect
Categories: Science

Enzyme-inspired catalyst puts chemicals in right position to make ethers

Matter and energy from Science Daily Feed - Thu, 09/12/2024 - 1:17pm
Taking inspiration from enzymes, chemists have developed a catalyst to simplify the synthesis of ethers, key functional components of many drugs, foods, personal care items and other consumer goods. The catalyst puts the two chemical ingredients in just the right proximity and position to come together, bypassing the need for the steps and quantities required under standard synthesis protocols.
Categories: Science

Groundbreaking New Maps of the Sun’s Coronal Magnetic Fields

Universe Today Feed - Thu, 09/12/2024 - 12:43pm

If you enjoyed this summer’s display of aurora borealis, thank the Sun’s corona. The corona is the Sun’s outer layer and is the source of most space weather, including aurorae. The aurora borealis are benign light shows, but not all space weather produces such harmless displays; some of it is dangerous and destructive.

In an effort to understand space weather and the solar corona, the National Science Foundation aimed the world’s most powerful solar telescope, the Daniel K. Inouye Solar Telescope, at the corona to map its magnetic fields.

Space weather affects Earth’s magnetosphere, ionosphere, thermosphere, and exosphere. It includes solar flares, coronal mass ejections (CME), and the solar wind.

Solar flares are powerful bursts of electromagnetic energy that can damage satellites and disrupt radio communications and are frequently associated with sunspots. CMEs are ejections of plasma from the corona that collide with the magnetosphere, causing geomagnetic storms and aurorae and, when powerful enough, disrupting power grids. The solar wind is a constant stream of charged particles that streams from the solar corona and causes aurorae. Since the solar wind never stops, it can also change the orbit of satellites.

The solar corona is made of plasma, and though it’s quite dim, it’s very hot.

This image shows the Sun’s layers in false colour for clarity. Solar prominences are precursors to CMEs, though not all prominences escape the corona to become CMEs. Image Credit: By Kelvinsong – Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=23371669

Scientists know the large role the solar corona plays in space weather, but they don’t understand how the Sun’s magnetic fields drive it. However, the Daniel K. Inouye Solar Telescope (DKIST) has successfully mapped the corona’s magnetic field for the first time. Understanding the magnetic field is critical for understanding and predicting space weather.

The results are in a new paper titled “Mapping the Sun’s coronal magnetic field using the Zeeman effect.” It’s published in the journal Science Advances, and the lead author is Thomas Schad, an associate astronomer at the National Solar Observatory, the organization that operates the DKIST.

“This breakthrough promises to significantly enhance our understanding of the solar atmosphere and its influence on our solar system.”

Thomas Schad, NSO

Thomas Schad is the lead author of the new paper but has been working with the DKIST for several years. In a 2023 paper, Schad and his co-authors explained that “The possibility of measuring coronal magnetic fields from the Zeeman-effect-induced circular polarization has been a generational goal for understanding the Sun’s outer atmosphere.”

The National Science Foundation’s (NSF) Daniel K. Inouye Solar Telescope is a four-meter solar telescope on the island of Maui, Hawai’i. It’s the largest solar telescope in the world. Image Credit: National Solar Observatory.

To do this, DKIST relies on one of its primary instruments, the Cryogenic Near-Infrared Spectropolarimeter (cryo-NIRSP). The Cryo-NIRSP is uniquely suited for polarimetric observations of the solar corona. In 2023, Schad and his co-authors explained that “One of the main Cryo-NIRSP goals is to routinely and sensitively measure coronal intensities, velocities, densities, and magnetic fields with unprecedented temporal, spatial, and polarimetric resolution.”

The Zeeman effect allows the DKIST to measure the fields by observing spectral line splitting. Spectral lines are like ‘fingerprints,’ and they result from either the absorption or emission of light by specific atoms or molecules. In the presence of a static magnetic field, spectral lines are split. The splitting gives researchers insight into the Sun’s magnetic properties.

Astronomers have attempted to study the Zeeman effect and spectral line splitting in the past, but the observations lacked detail and regularity. The DKIST has changed that.

The problem with observing the Sun’s corona is its faintness compared to the rest of the Sun. The corona is about one million times fainter than the solar disk, and the corona was only observable during a solar eclipse. The DKIST uses coronagraphy to create artificial eclipses, bringing the corona into view. That lets the telescope see the extremely faint polarized signals, which are a staggering one billion times fainter than the disk.

“The Inouye’s achievement in mapping the Sun’s coronal magnetic fields is a testament to the innovative design and capabilities of this trailblazing unique observatory,” said Schad. “This breakthrough promises to significantly enhance our understanding of the solar atmosphere and its influence on our solar system.”

This figure illustrates some of the research’s results. The top panel is a composite image from the Solar Dynamics Observatory and its Atmospheric Image Assembly, and the bottom panel is from DKIST. The black dotted lines show solar radii. Together, the images show that polarization amplitude increases inside the dense coronal structures above the surface of the corona. ?B stands for Bohr magneton, a way of expressing the strength of a magnetic field in units. DN/s stands for Data Numbers per second, a way of measuring changes in solar activity over time. Image Credit: Schad et al. 2024.

Coronal Mass Ejections are the most dangerous type of space weather. Earth’s magnetosphere has a protective effect, but CMEs can slam into it and overwhelm it, creating a geomagnetic storm. The most powerful geomagnetic storm we know of is the Carrington Event of 1859. At that time, the USA’s telegraph was new, and the storm disabled parts of it. It also started fires and injured some people.

In our modern satellite age, a storm that powerful could be devastating. If we can predict them, we can harden our satellites and power grids and minimize the effects. By understanding how the Sun’s coronal magnetic fields work, scientists hope to be able to anticipate when a powerful CME is coming our way.

“Just as detailed maps of the Earth’s surface and atmosphere have enabled more accurate weather prediction, this thrillingly complete map of the magnetic fields in the sun’s corona will help us better predict solar storms and space weather,” said Dr. Carrie Black, NSF program director for the NSO. “The invisible yet phenomenally powerful forces captured in this map will propel solar physics through the next century and beyond.”

The overplotted lines in this figure from the research show the direction of linear polarization in the Sun’s corona. The scale on the right shows the percentage of polarized amplitudes of the magnetic lines. Image Credit: Schad et al. 2024.

“Reconstructing the 3D distribution of coronal plasma and its embedded magnetic stresses remains essential for understanding coronal energetics,” the authors explain in their research. “These first reported maps of the coronal Zeeman effect, made possible by DKIST, unveil the wealth of information that polarimetric diagnostics provide for the solar corona, particularly for its key driver: the magnetic field.”

These results go beyond just the Sun and local space weather. This detailed knowledge will build our understanding of stars in general.

“Mapping the strength of the magnetic field in the corona is a fundamental scientific breakthrough, not just for solar research, but for astronomy in general,” said NSO Director Christoph Keller. “This is the beginning of a new era where we will understand how the magnetic fields of stars affect planets, here in our own solar system and in the thousands of exoplanetary systems that we now know about.”

The post Groundbreaking New Maps of the Sun’s Coronal Magnetic Fields appeared first on Universe Today.

Categories: Science

Mega El Niños may have played a part in the Permian mass extinction

New Scientist Feed - Thu, 09/12/2024 - 12:00pm
Extreme weather events lasting more than a decade could have killed off forests 250 million years ago, contributing to Earth's worst ever mass extinction
Categories: Science

Greenland landslide caused freak wave that shook Earth for nine days

New Scientist Feed - Thu, 09/12/2024 - 12:00pm
Seismologists were mystified by a strange signal that persisted for nine days in 2023 – now its source has been identified as a standing wave caused by a landslide in Greenland
Categories: Science

Discovery could lead to longer-lasting EV batteries, hasten energy transition

Matter and energy from Science Daily Feed - Thu, 09/12/2024 - 11:24am
Researchers have discovered why lithium-ion batteries, which power most electronic devices, lose capacity overtime. The findings could enable the development of electric vehicles that go far longer without needing a charge.
Categories: Science

New discovery about ice layer formation in ice sheets can improve sea level rise predictions

Matter and energy from Science Daily Feed - Thu, 09/12/2024 - 11:24am
A newly discovered mechanism for the flow and freezing of ice sheet meltwater could improve estimates of sea level rise around the globe. Researchers have found a new mechanism that explains the process of how impermeable horizontal ice layers are formed below the surface, a process critical for determining the contribution of ice sheet meltwater to sea level rise.
Categories: Science

The insulator unraveled

Matter and energy from Science Daily Feed - Thu, 09/12/2024 - 11:20am
Scientists have uncovered the detailed structure of the aluminum oxide surface, a challenge that has baffled researchers for decades.
Categories: Science

A new app to 'uncuff' blood pressure monitoring

Computers and Math from Science Daily Feed - Thu, 09/12/2024 - 11:00am
Researchers have developed a groundbreaking smartphone app that measures blood pressure using a smartphone's built-in sensors, eliminating the need for traditional cuffs. This technology can make blood pressure monitoring more accessible and convenient, especially for underserved populations. By allowing users to measure their blood pressure anytime and anywhere, the app could revolutionize cardiovascular care and improve early detection of hypertension.
Categories: Science

Smart supramolecular assemblies

Matter and energy from Science Daily Feed - Thu, 09/12/2024 - 10:59am
Researchers have created 'smart' microparticles that self-assemble in response to the addition of a specific molecule. This work can help explain the behavior of biomolecular complexes, as well as pave the way for novel polymers that respond to their environment.
Categories: Science

Invisibility cloaks? Wave scattering simulation unlocks potential for advanced metamaterials

Computers and Math from Science Daily Feed - Thu, 09/12/2024 - 10:59am
Could invisibility cloaks become a reality? New research brings this science fiction concept a step closer, with a breakthrough software package that simulates how waves interact with complex materials.
Categories: Science

Invisibility cloaks? Wave scattering simulation unlocks potential for advanced metamaterials

Matter and energy from Science Daily Feed - Thu, 09/12/2024 - 10:59am
Could invisibility cloaks become a reality? New research brings this science fiction concept a step closer, with a breakthrough software package that simulates how waves interact with complex materials.
Categories: Science

Big algebras: A dictionary of abstract math

Computers and Math from Science Daily Feed - Thu, 09/12/2024 - 10:58am
Several fields of mathematics have developed in total isolation, using their own 'undecipherable' coded languages. Mathematicians now present 'big algebras,' a two-way mathematical 'dictionary' between symmetry, algebra, and geometry, that could strengthen the connection between the distant worlds of quantum physics and number theory.
Categories: Science

Breakthrough study unveils key steps for turning CO2 into valuable chemicals

Matter and energy from Science Daily Feed - Thu, 09/12/2024 - 10:58am
A groundbreaking study takes advantage of advanced spectroscopic methods and theory to shed light on the intricate processes involved in converting carbon dioxide (CO2) into valuable chemicals like ethylene and ethanol. This research holds significant promise for advancing sustainable practices in the chemical industry.
Categories: Science

Ehrapy: A new open-source tool for analyzing complex health data

Computers and Math from Science Daily Feed - Thu, 09/12/2024 - 10:58am
Scientists have developed an accessible software solution specifically designed for the analysis of complex medical health data. The open-source software called 'ehrapy' enables researchers to structure and systematically examine large, heterogeneous datasets. The software is available to the global scientific community to use and further develop.
Categories: Science

Hair-thin wire to help simulate cosmic conditions

Matter and energy from Science Daily Feed - Thu, 09/12/2024 - 10:58am
Extreme conditions prevail inside stars and planets. The pressure reaches millions of bars, and it can be several million degrees hot. Sophisticated methods make it possible to create such states of matter in the laboratory -- albeit only for the blink of an eye and in a tiny volume. So far, this has required the world's most powerful lasers, and the opportunities for experiments are correspondingly rare. A research team has now succeeded in creating and observing extreme conditions with a much smaller laser.
Categories: Science

Hair-thin wire to help simulate cosmic conditions

Space and time from Science Daily Feed - Thu, 09/12/2024 - 10:58am
Extreme conditions prevail inside stars and planets. The pressure reaches millions of bars, and it can be several million degrees hot. Sophisticated methods make it possible to create such states of matter in the laboratory -- albeit only for the blink of an eye and in a tiny volume. So far, this has required the world's most powerful lasers, and the opportunities for experiments are correspondingly rare. A research team has now succeeded in creating and observing extreme conditions with a much smaller laser.
Categories: Science

Bake, melt or ignite: How synthesis methods have a profound impact on disordered materials

Matter and energy from Science Daily Feed - Thu, 09/12/2024 - 10:58am
A new study reveals how different synthesis methods can profoundly impact the structure and function of high entropy oxides, a class of materials with applications in everyday electronic devices.
Categories: Science

Bake, melt or ignite: How synthesis methods have a profound impact on disordered materials

Computers and Math from Science Daily Feed - Thu, 09/12/2024 - 10:58am
A new study reveals how different synthesis methods can profoundly impact the structure and function of high entropy oxides, a class of materials with applications in everyday electronic devices.
Categories: Science

Researchers explain the organization of DNA in chromosomes from repetitive interactions between nucleosomes

Matter and energy from Science Daily Feed - Thu, 09/12/2024 - 10:58am
A new article analyzes in depth the physical problems associated with DNA packaging that have often been neglected in structural models of chromosomes. The study demonstrates that the multilaminar organization of DNA, proposed from previous experimental research, is fully compatible with the structural and functional properties of chromosomes. This organization can be explained by weak interactions between nucleosomes, which are the repetitive blocks that fold the DNA double helix.
Categories: Science

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