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Magnetic maps had been marking something strange under Antarctica for centuries. So we’ve started drilling to find it

February 13, 2026 by usatoday24

For years, magnetic maps of East Antarctica have shown something strange about the region from Princess Elizabeth Land: a large amplitude linear magnetic anomaly under kilometers of ice that runs along the coast parallel to the margin of the continent. It was something that satellites and planes could detect, but no one knew exactly what rock was producing it until now. Discovering it. If the problem is that this anomaly was under a large amount of ice, a team of researchers within the framework of a Russian-Chinese cooperation He has done the most logical thing to find what was happening: start drilling. What they have found after putting a large drill to work is not only a magnetic rock that gave that peculiar pattern, but it is the geological “scar” of an ancient island arc that collided with the continent almost 1,000 years ago, when the supercontinent was forming. Rodinia. A challenge. The study that includes this discovery focuses mainly on the Rayner tectonic province, an area that is geologically critical because it is considered a “mobile belt.” That is, it is a collision zone where ancient blocks of crust were crushed against each other. The problem with Antarctic geology is that almost everything they are interested in is buried, and in this case the team had to cross 541 meters of ice to be able to reach the rock that interested them. What did they find? What they took from the bottom of Antarctica was not common granite as can occur in other areas, but rather the core recovered is a mafic granulite. Something that is very important, since granulites are metamorphic rocks that have suffered infernal temperatures and pressures. After power analyze this rock So interesting, it was seen that this was what was causing the linear anomalies seen from space. And as we say, it is not a very normal stone, since it is rich in ferromagnetic minerals, capable of altering the magnetic field locally. Investigating Rodinia. Once with the sample in hand, the team applied geochemistry techniques and dating to be able to counterbalance these data with everything that was known in previous research. What was seen is that there was a great violent history behind it, since it was known that the rock was originally born as magma about 970 million years ago. From its birth, that rock was pushed into the depths and “cooked.” The data indicate that it was subjected to temperatures between 650 and 790 ºC and pressures equivalent to depths of 15 to 18 kilometers. In this way, the researchers’ conclusion is that this rock was part of a volcanic arc of islands like those of Japan. But the most interesting thing is that this arc was not originally in Antarctica, but was forcibly “stuck” against the ancient continent during a massive collision that gave rise to the formation of Rodinia. The Indian connection. To understand the magnitude of the find, you have to look beyond Antarctica, as geologists have long suspected that the Rayner Province in Antarctica and the Eastern Ghats Province in India They are twins separated at birth. And the new data reinforces this theory, since the conditions of “high temperature” metamorphism found in this drilling are almost identical to those documented in India. This leads us to conclude that 900 million years ago, the east coast of India and this part of Antarctica were joined, forming a huge mountain range created by the collision of tectonic plates. Images | 66 north In Xataka | In the United States there is an incredible river that does what seems impossible: defy the laws of gravity

The “lost continents” of our planet are leaving their trail in an unthinkable place: the earth’s magnetic field

September 7, 2025 by usatoday24

Life as we know it depends largely on the stability of the Earth’s magnetic field. But this stability (or the absence of this) depends in turn on factors that we still do not understand. Some of these factors are in the outer space, others instead are thousands of kilometers hidden under our feet. From the bottom up. Huge geological structures located in the land mantle They could be contributing To destabilize the magnetic field that protects the land from radiation and particles from space. These are the “sunk continents”, the large provinces of low speed (LLVP). Sunk continents. This last name is due to the fact that these rock masses located in the deep layers of the land mantle stand out from the rest of its surroundings because the seismic waves move more slowly through them. Through this method we know the existence of two large LLVP, one located under the African tectonic plaque and the other located under the peaceful plaque. We do not know exactly what they are or what is the origin of these rock masses. A hypothesis indicates that could be remains of the impact between the primal earth and a second planet called Theia. The Moon would be one of the results of that impact, another would be that part of The remains of Theia would have been “embedded” on earth, specifically in the mantle, giving rise to these “lost continents.” However, other studies have pointed out that these masses would be formed, at least partially of ocean cortex buried through subductive geological processes, which would make them more close to “lost continents” of the surface of the earth. The new study can be linked to this last hypothesis. Fed by a “fire ring.” The team He modeled the movements Convectives of the land mantle, also creating a reconstruction of the possible movement of the tecton plates on the surface of the Earth in the last 1,000 million years. Thus they found indications that the African dough would contain older and more “mixed” than the peaceful mass, which would contain 50% more oceanic crust, a more “young” cortex and different from the surrounding mantle. This could be explained with the call “Pacific Fire Ring”, A vast network of failures, many of them subductive that little by little they engulf part of the earth’s crust. This “banquet” would have been producing for at least 300 million years and would be serving to feed the Pacific LLVP. The details of the study were published In an article In the magazine Scientific Reportsof Nature. In diversity is the key. Until now, intuition pointed out that these two underground “continents” had a similar composition. The reason is precisely that the two slow down the passage of seismic waves in a similar way, which leads us to the intuition of thinking that these are very similar in their characteristics. However, the team responsible for the new work indicates that this may not be the case. The reason is that the temperature is more than the material that makes these regions slow the waves that cross them. The balance is complicated. The formations are more or less opposite in the Terrestrial globe, which in principle is great news: since these masses influence the way in which the temperature of the earth’s core is spread in higher layers, which in turn affects the conductive movements inside the nucleus of the planet. Since these movements are those that allow the existence of a magnetic field On Earth, the way in which they occur has a lot of impact on this field. If the LLVPs are different, the way in which the field is generated ceases to be symmetrical as one would expect, which gives rise to the appearance of imbalances. Discussing the different hypotheses. As we pointed out at the beginning, the new study can be linked to the idea that the LLVPs are the result of the sinking of earth cortex pieces and not the remains of a planet of the original solar system. Although the study does not offer conclusive evidence confirming this first hypothesis, It can be seen as a new more test in this address. In Xataka | Julio Verne was right: there are three times more water in the depths of the earth than in all oceans together Image | Oxford University; Panton, Davies, et al. (2025) / NASA/Goddard Space Flight Center Scientific Visualization Studio

They show how the magnetic field is invested

July 17, 2025 by usatoday24

NASA has gotten into the wolf’s mouth, the place where solar storms originate. The solar probe team Parker has just published The images closest to the sun They have ever taken. It is the first time that humanity sees with this level of detail the ejections of coronal mass and the field where its magnetic polarity changes from north to south. The Sun in the first -term term. When he took the images at the end of 2024, NASA’s Parker solar probe It was just 6.1 million kilometers of the visible surface of the sun: the photograph. That day, the probe not only became the fastest artificial object in history, with a speed of 692,000 km/h. He also used his WISPR camera to capture in detail the crown of the sun and the birth of the solar wind, the constant flow of loaded particles that bathes the entire solar system. The cradle of the space climate. The most revolutionary of these images is that they allow to visualize the weltic current sheet, a gigantic and undulating “sewing” of the solar system that extends from the sun, marking the limit where the polarity of the magnetic field is invested. Seeing it so closely is an invaluable document to understand how the solar wind spreads. In addition, the probe has managed to observe the collision and fusion of multiple coronal mass ejections in high resolution. “We are seeing the CMEs stacking on each other,” explains Angelos Vourlidas, scientist of the Wispr instrument. Understanding how they merge is key, since these mergers can Create geomagnetic storms Much more powerful and dangerous. The mystery of switchbacks. The Parker mission is not just beating proximity and speed records. Its main objective is to solve enigmas that solar physicists have been trying to decipher. One of the biggest discoveries of the probe has been the abundance of the so -called ‘switchbacks’ or Magnetic investmentsfolds in the magnetic field that invest their direction at brief intervals, as if Zigzag. Thanks to the approaches to the Parker solar probe, we now know that these structures originate on the visible surface of the sun and are one of the fast solar wind engines. Also that there are two types of slow solar wind. One seems to be born from large magnetic loops, while the other would come from coronal holes. Touch the sun without melting. Approaching the sun so much poses an obvious question: how is it possible that the probe does not melt? The key is in the difference between temperature and heat. The solar crown has a temperature of millions of degrees, but it is a vacuum with a very low density. There are few particles, so, although they move very fast (high temperature), they do not transfer much energy (low heat). How to put your hand in a hot oven. Even so, the ship needs protection. There your thermal shield of 2.4 meters in diameter comes into play carbon compound. The shield is capable of supporting temperatures of up to 1,400 ° C on its outer face, while the body of the ship remains comfortable 30 ° C. Other exposed instruments are made of exotic materials such as molybdenum and tungsten, metal with the highest known fusion point: 3,422 ° C. Image | POT In Xataka | What are solar storms and why society has become so vulnerable to something that has happened millions of years

If interpreting a magnetic resonance it seems difficult it is because it is. That is why we are developing help: an AI

July 9, 2025 by usatoday24

The expectations are high: Artificial Intelligence (AI) has been promising for some time to be the next great revolution in medicine. Even aware of this revolution, the tools based on this concept are gaining step step by step in the area of medical sciences. One of the most recent steps has been given by a team of researchers in Malaga. Improve images. The step in question has to do with the techniques used to take medical images. The new tool Improve automatic segmentation Of medical images, which in turn allows us to reduce errors in the analysis of complex images, says the team itself. Segmentation. But what exactly is that automatic medical image segmentation? According to Explain the team itselfmedical segmentation consists in “delimiting anatomical structures or lesions in medical images.” Thus it is possible not only to diagnose certain diseases more effectively, but also to more easily locate injuries and improve precision in certain treatments. However, this task is not always easy due to the limitations of the techniques used to take these images, such as magnetic resonances and tomographs. “The precision in the segmentation of medical images is essential to improve diagnoses and treatments,” detailed in a press release Ezequiel López Rubio, who led the study. Our approach demonstrates that it is possible to optimize the reliability of AI models by applying trial time increase techniques, which opens new possibilities in the field of computational medical image. ” In Xataka The Chinese company Alibaba has an AI to detect pancreatic cancer. It is so good that the US has accelerated its approval Medsam. For the development of the tool, the team started from a New Model of AI called Medsam, a model that combined with the TTA technique (Test-Time Augmentation). This combination allows, the team itself points out, introduce small transformations in the images at the time of being analyzed. Thus it is possible to achieve a “more robust system against variations”, with better precision in segmented contours. Promising results. With Regarding the resultsThe team stressed that the new tool “significantly improves precision” if we compare it with traditional segmentation methods, achieving greater reliability. This greater reliability would be key in images with noise or with little quality, something that, stand out, is common in clinical practice. Another relevant point for those who have formulated this new tool is flexibility of the methodology and its ability to adapt to different image taking technologies. The details of the study were published In an article In the magazine Mathematics. {“videoid”: “x8px49v”, “autoplay”: fals, “title”: “Antibiotics are no longer effective and the problem is superbacteria”, “Tag”: “Webedia-prod”, “Duration”: “327”} The new border. Artificial intelligence continues to see rapid expansion. An expansion that It covers medical disciplines. A good example of this are the diagnostic tools, whose precision would have managed to overcome the “clinical eye” of health personnel, according to They hold their developers. We still cannot trust our health at AI, but of course the potential of these tools when assisting health professionals and patients themselves grows day by day. These tools are a promising future, but at least for now they are just that. In Xataka | Surgeons are facing a new challenge: patients who want to resemble their double created by AI Image | Accuray (Function () {Window._js_modules = Window._js_modules || {}; var headelement = document.getelegsbytagname (‘head’) (0); if (_js_modules.instagram) {var instagramscript = Document.Createlement (‘script’); }}) (); – The news If interpreting a magnetic resonance it seems difficult it is because it is. That is why we are developing help: an AI It was originally posted in Xataka by Pablo Martínez-Juarez .

Humanity has been using the Earth’s magnetic field as a navigation guide. Some researchers want to retire it

April 22, 2025 by usatoday24

In recent decades, GPS has become part of our day to day. If it is a military technology, the global positioning system has been guided by roads, forests and seas, in the city and in the mountain, but always with an important limitation, access to satellites that place our navigation devices. That could change. Magnav. Thanks to magnetic navigation systems or Magnav, and more specifically to a new development that uses a quantum adjustment system that promises more precise navigation. A navigation, in addition, immune to interference, accidental or caused, which allows significantly reducing satellite navigation dependence. Magnav systems (Magnetic-Anomaly Navigation) o Navigation by magnetic anomaly are based on the fact that the Earth’s magnetic field It is not uniform. That is why it is possible to use a magnetometer that indicates our position by measuring small variations in the magnetic field of the planet. Use the Earth’s magnetic field as Navigation reference It is not something new but something we have been doing since the invention of the compass, but the new system promises to achieve unusual precision. That’s where the quantum dimension of the new system comes into play. Navigation “quantum”? The new technology, They explain their developersis based on the use of quantum magnetometers that combine a noise elimination system with a cartographic algorithm. The magnetometers are based on the optical detection of the precession of the atomic spin, for which they use a steam cell that contains rubidium atoms, They detail. This technology opens the door to measure the magnetic field of the Earth with greater precision, which translates into a better capacity to locate ourselves on the map. All this, they also highlight, in a device small enough to be used in autonomous vehicles or in fixed wing drones. Q-ctrl. Behind this system is an Australian company, Q-Ctrl (name that refers to “Quantum Control”) The company emerged in 2017 Like a Spin-off of the quantum science group of the University of Sydney. By land and air. RecieBy land and air. Recently, the team responsible for this system put it to the test. With satisfactory results: the device obtained errors in the measurements up to 46 times less than the inertial navigation systems usually used as a complement to the satellite. The measurements were made on flights at a height of 19,000 feet, in which it was also possible to fly with a total error in the 22 -meter trip, 0.006% of the distance traveled. The results were “consistently” at least 11 times better than those obtained with inertial systems. The team responsible for the development of the new tool has published some details in an article. The article has not passed the pairs review filter but can be found freely Through the repository Arxiv. Substitute or complement. Satellite navigation systems are central today and this is precisely its weak point: the emergence of GPS signals puts both commercial routes and passenger transport, but it could also put into check military operations in cases of armed conflict. The interception of these signals can therefore be used as well as a commercial and war weapon. We have various tools that allow satellite navigation to attend, but few systems can at the same time have the accuracy of these without depending on them. That is why having alternative mechanisms of high precision can be more precise than ever. In Xataka | The North Pole is moving very fast, and that has forced many airports to rename their clues Image | NOAA NCI / Q-ctrl

The magnetic north pole has been moving rapidly. This is how navigation instruments follow the step

January 25, 2025 by usatoday24

What do we talk about when we talk about the North Pole? The truth is that it depends since, on our planet we can distinguish two key geographical points that respond to this name, but with different “surname.” They are the magnetic north pole and the geographical north pole. Distinguishing them is key because only one of them has a fixed location while the other wanders in their proximity. But, in addition, it makes it faster. Reviewing the location. The new year has been released With an update that has gone more or less unnoticed but that is of the utmost importance: it is the world magnetic model (WMM) of 2025. The revision of the model not only includes the information about its current position but also of its displacements planned in the next five years . Accelerated movement. We have known for a long time that the magnetic north pole changes location and we know that the cause is in the changes in the magnetic field of the planet, a field generated by the connective iron movements of the interior of our planet. What is most striking is that, during the last decades the displacement of the magnetic northern pole It has accelerated. If for 300 years this point ranged between the islands located north of Canada, since the end of the 20th century and especially during the new century, the speed of displacement of this markedly accelerated. Now the magnetic north has already exceeded the geographical north and is closer to Siberia than from Canada. “The current behavior of the magnetic north is something we had never seen before. (…) In recent years he accelerated towards Siberia, increasing speed every year until about five, when he suddenly seized 50 to 35 km per year, ” explained in a press release William Brown, of the British Geological Survey (BGS), one of the institutions in charge of the development of the model. The world magnetic model. The model It is the result of the collaboration between the National Environmental Information Centers (NCEI) of the NOAA (National Oceanic and Atmospheric Administration) American and the BGS, as well as two intelligence agencies on both sides of the Atlantic. The model is used in various contexts, from aviation to commercial GPS and applications that use compasses on our mobile. The model includes a series of maps that not only indicate the location of the magnetic north but also mapped the changes in the Earth’s magnetic field, allowing to know the behavior of compasses at each point of the northern hemisphere. More precision. The latest version of the model, WMM2025will help improve navigation, especially in long -distance tours. As explained by the BGS, a trip between South Africa and the United Kingdom, using the old model, would imply a slight deviation of a degree on the way. The problem is that, over 8,500 kilometers, this very small deviation results in an error of 150 kilometers. The new model allows you to approach centimeters from the destination point. The version also incorporates a novelty: a high resolution map that will accompany the “standard” and that can be used in contexts where greater precision is required. This version has a 300 km resolution in Ecuador, notably higher than the 3,300 km resolution in the standard version. The next update. The WMM model is updated every five years, which means that we will have a new version in 2030, WMM2030. This assuming that I do not know any unexpected change in the speed or direction of the displacement that justifies an extraordinary review of the model. In Xataka | The Arctic has been heating faster than we expected. We may not be blamed this time Image | NOAA NCI / Hendrik Morkel

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