The ESA just snapped the first photos of the Sun's south pole

If you purchase an independently reviewed product or service through a link on our website, BGR may receive an affiliate commission.
The European Space Agency has achieved yet another 'first' for humankind by capturing the first photos of the Sun's south pole. These images were captured by the agency's Solar Orbiter spacecraft, and it gives us our first distinct look at the atmosphere of the Sun's southern pole.
When viewed from our little blue planet, the Sun appears as nothing more than a massive disc of light. However, thanks to the efforts of the Parker Solar Probe and other astronomical observations, we know that isn't really the case. Like the other planets in our solar system, the star that it all revolves around is massive, and made up of several different regions.
Today's Top Deals
Best deals: Tech, laptops, TVs, and more sales
Best Ring Video Doorbell deals
Memorial Day security camera deals: Reolink's unbeatable sale has prices from $29.98
Further, because the star is made up of so much pure, raw energy, it's more like a roaring ball of power, with magnetic fields twisting and turning around it as it rotates. These fields are what help determine when the Sun sends solar energy ripping through space into our solar system, and understanding them is key to understanding our Sun's potential power.
We know that our Sun goes through a relatively quiet period, where the Sun's south and north pole are clearly defined. However, there's also a time where it's less stable, and the Sun is much more violent, with energy ripping off the surface of the star more frequently. Observing this has been difficult in the past, as we had no clear indicator of where the Sun's south and north poles were.
However, that changes now, thanks to the latest observations from the ESA's Solar Orbiter. Knowing where the Sun's north and south poles are will help us follow the magnetic fields as they go through a polar reversal, which changes how the energy flows on the surface of our star.
Now, researchers believe they may actually be able to watch where the flow of power and fluid transports bits of the Sun's solar energy to the poles. The goal of this observation is to help us come up with better computer models to estimate and predict when solar outbursts will occur.
Because solar storms can be so damaging to Earth's own magnetic field, having a good idea of where and when they might strike is key to protecting future space missions. However, there's still a lot of work to do if we want to be able to predict where the solar energy will erupt from. Until then, at least we have a good foundation to build off of.
More Top Deals
Amazon gift card deals, offers & coupons 2025: Get $2,000+ free
See the

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Yahoo

an hour ago

• Yahoo

Earth's Magnetic Field Might Weirdly Be Controlling the Air We Breathe, Scientists Say

"Hearst Magazines and Yahoo may earn commission or revenue on some items through these links." Here's what you'll learn when you read this story: Earth's oxygenated atmosphere and magnetic field make life possible, but scientists have discovered that there's a hidden link between the two that's stronger than we originally imagined. Comparing 540 million years of data from charcoal deposits and magnetic crystals formed from ancient volcanic eruptions, scientists found that the processes creating both increase at the same rate over time, and even experience the same jump in activity levels around 330 million years ago. Scientists aren't yet certain which mechanism is impacting the other—or if there is a third mechanism impacting them both. If you list all of the things that had to go right to make life on Earth possible, our minuscule existence (cosmically speaking) seems all the more amazing. Our Sun is a G-type star with moderate radiation output that doesn't tidally lock our planet. The Earth is situated in our Sun's habitable zone. The planet has maintained a robust atmosphere for hundreds of millions of years, and the dynamo at the planet's heart generates a magnetic field that protects us from the most harmful effects of space radiation. Earth truly is a paradise for life. Although scientists have known about these life-giving aspects of Earth for centuries, they're still discovering surprising connections between them. In a new study published last week in the journal Science Advances, scientists from NASA, the University of Washington, and the University of Leeds in the U.K. discovered a surprising connection between two of Earth's most important life-sustaining features—its oxygenated atmosphere and its magnetic field. It's hardly surprising that the existence of one of these features might impact the existence of the other. After all, Mars (which is also in the Sun's habitable zone) used to have an atmosphere, but without a robust magnetic field, the Red Planet eventually lost that atmosphere to the unrelenting lashing of solar winds. However, the authors of this new paper found that, on Earth, the correlation between these two systems runs much deeper than we previously imagined. 'We find that both exhibit strong linearly increasing trends, coupled with a large surge in magnitude between 330 and 220 million years ago,' the authors wrote. 'Our findings suggest unexpected strong connections between the geophysical processes in Earth's deep interior, the surface redox budget, and biogeochemical cycling.' Analyzing data stretching back to the Cambrian some 541 million years ago, the researchers found that the rise in Earth's magnetic field and the rise in its oxygen levels were very closely aligned—slowly increasing overtime, except for one bout of increased activity lasting from 330 million to 220 million years ago. To map this comparison over the course of hundreds of millions of years, the researchers couldn't rely on direct data—there is no such record for atmospheric oxygen levels, for example. However, they could track the strength of wildfires, which show up as charcoal deposits in the geologic record. This would provide a clue, since a stronger, longer-lasting fire means that there was more oxygen in the atmosphere to fuel said fire. To compare this record with Earth's magnetic field history, the team analyzed certain magnetic crystals that formed in ancient volcanoes and—due to their composition—essentially act like a 'compass frozen in time,' according to Nature. Once plotted side-by-side, the team noticed that the two processes largely increased in lockstep with one another, and even experienced the same increase 330 million years ago. Interestingly, this coincides with the formation of Pangea, though scientists aren't sure exactly if the formation of the supercontinent is related to the increase or a coincidence, as the data does stretch back far enough to compare levels to other supercontinents in Earth's history. So, what's going on here? Well, the researchers aren't exactly sure, but they have a few guesses. The most likely one is that Earth's magnetic field directly impacts oxygen levels, as it protects Earth (and oxygen-producing plants) from solar radiation. However, it's also possible that increased oxygenation coupled with plate tectonics—which drive oxygen toward the liquid outer core that produces the magnetic field—could also play a role. The authors also aren't ruling out the idea that a third, currently unknown mechanism could provide an explanation for this steadily upward trend. 'One single mind cannot comprehend the whole system of the Earth,' Ravi Kopparapu, a co-author of the study from NASA, told Live Science. 'We're like kids playing with Legos, with each of us having a separate Lego piece. We're trying to fit all of it together and see what's the big picture.' While 540 million years is an unfathomably long time compared to our human lifespan (or even our species' existence), it's only around 12 percent of Earth's entire existence, so these trends could simply be coincidental. All we can do is continue searching for answers among the clues that we do have, and try to grasp just how wondrous our home planet really is. You Might Also Like The Do's and Don'ts of Using Painter's Tape The Best Portable BBQ Grills for Cooking Anywhere Can a Smart Watch Prolong Your Life?

Business Upturn

5 hours ago

• Business Upturn

The European Space Agency and Dassault Aviation paving the way for potential collaborations

PRESS RELEASE June 20, 2025 The European Space Agency and Dassault Aviation paving the way for potential collaborations ESA and Dassault Aviation have identified a mutual interest in developing a closer relationship to commonly foster technology development in areas such as LEO destinations and particularly around orbital vehicules. The European Space Agency (ESA) has signed a Letter of Intent (LoI) with Dassault Aviation, a French civilian and military aircraft manufacturer recognized worldwide for its excellence, underlying their common interest to develop a closer relationship. ESA, with its ambitious strategy for space exploration, Explore2040, is seeking innovative solutions for capabilities development to reach and return from Low Earth Orbit (LEO), Moon and Mars, and supports the advancement of selected critical enabling technologies to be used and demonstrated in particular in LEO, such as hypervelocity re-entry. Dassault Aviation, also a leader in aerospace engineering, is developing its space activities with a focus on the design of a reusable spaceplane based on lifting bodies shapes that bridge aeronautical and space technologies. Their interest in automated LEO platforms suitable for commercial and institutional markets, led them to develop a vehicle concept called ' Véhicule Orbital Réutilisable de Transport et d'Exploration (VORTEX) ', designed for research in space, transport of cargo to and from space stations, and a range of in-orbit services. This project is based on a considerable expertise in spaceplanes having participated in numerous programmes like Hermes, NASA X-38 Crew Rescue vehicle, ESA Intermediate eXperimental Vehicle (IXV) demonstrator, and Airborne Reusable Hypersonic Experimental Vehicle (VEHRA) concepts. ' Dassault Aviation's decades of expertise in aeronautical and space systems, perfectly position them to pioneer critical space technologies ', said Josef Aschbacher, Director General of the European Space Agency. ' With VORTEX, Dassault is contributing to strengthening European capacities and securing sovereign access to space in a strongly growing and competitive space sector. We look forward to combining our expertise and working hand-in-hand for a stronger Europe in space.' ' Our Vortex roadmap aims to strengthen Europe's essential sovereign capabilities and meet the new challenges of the space economy. This letter of intent is a perfect recognition of the complementary expertise of the European Space Agency and Dassault Aviation in the development of critical technologies and innovative space solutions, ' declared Eric Trappier, Chaiman and CEO of Dassault Aviation. As such, the signatories of the LoI, have identified a mutual interest in developing a closer relationship with the potential to commonly derisking critical technologies as well as to further explore the potential for collaboration in areas such as LEO destinations and particularly around orbital vehicules. As such, both foresee an interest to cooperate on a scaled down suborbital version of VORTEX, serving as a testbed, with a focus on, but not limited to: Designing, testing and qualifying key technologies and components. New materials and integration processes. Assessing the feasibility to include future payloads in case of the integration of a dedicated bay on the end-product. This joint work will be based on exchanging relevant information and conducting studies or preparatory activities, to help establish respective roles and responsibilities in the realisation of potential joint activities, leveraging on each side's capabilities. ' Europe benefits from a wide range of diverse and complementary skills. Enlarging the European industrial base is key for new opportunities arising in Space Exploration, aiming at more autonomy,' said Daniel Neuenschwander, Director of Human and Robotic Exploration at ESA. About the European Space Agency The European Space Agency (ESA) provides Europe's gateway to is an intergovernmental organisation, created in 1975, with the mission to shape the development of Europe's space capability and ensure that investment in space delivers benefits to the citizens of Europe and the world. ESA has 23 Member States: Austria, Belgium, the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Luxembourg, the Netherlands, Norway, Poland, Portugal, Romania, Slovenia, Spain, Sweden, Switzerland and the United Kingdom. Latvia, Lithuania and Slovakia are Associate Members. ESA has established formal cooperation with other four Member States of the EU. Canada takes part in some ESA programmes under a Cooperation Agreement. By coordinating the financial and intellectual resources of its members, ESA can undertake programmes and activities far beyond the scope of any single European country. It is working in particular with the EU on advancing the Galileo and Copernicus programmes as well as with Eumetsat for the development of meteorological missions. Learn more about ESA at

Yahoo

6 hours ago

• Yahoo

Summer solstice 2025: 1st day of summer is here

Get ready for sun-soaked days and warmer weather, as the summer solstice 2025 is just around the corner. This year, the summer solstice falls on Friday, June 20. The astronomical event marks the official start of summer and the beginning of an extended period of daylight in the northern hemisphere as we transition out of the darker, colder months. The solstice occurs twice a year when one of Earth's poles reaches its maximum tilt toward the sun, according to NASA. The word "solstice" comes from the Latin solstitium, meaning "sun stands still," referring to the moment when the sun's apparent path pauses before reversing direction, according to Royal Museums Greenwich. Across the globe, cultures have long celebrated the summer solstice with unique traditions from watching the sunrise align with Stonehenge in England to dancing around maypoles in Sweden and lighting bonfires in Norway. Here's everything you need to know about the 2025 summer solstice. The 2025 summer solstice falls on Friday, June 20, at 10:42 p.m. ET, according to NASA and the Old Farmer's Almanac. This marks the longest day of the year in the northern hemisphere, when the Earth's tilt positions it closest to the Sun. June's full strawberry moon: See photos and what it means for your zodiac "The situation is reversed for the southern hemisphere, where it's the shortest day of the year," NASA states. The summer solstice occurs at the point in Earth's orbit when the sun shines most directly on the northern hemisphere, according to NASA. "Astronomers consider this the beginning of the Summer in the northern hemisphere," NASA states. While it marks the start of summer in the north, the event marks the winter solstice in the southern hemisphere, where sunlight is at its lowest angle. The longest day of the year in 2025 will occur on Friday, June 20, for those in the northern hemisphere. On this day, the sun reaches its highest point in the sky, resulting in the most daylight hours of the year. NASA notes this happens when "the sun is directly over the Tropic of Cancer," located at 23.5 degrees north latitude. Yes, astronomers recognize the summer solstice as the official first day of summer in the northern hemisphere, according to NASA. The National Centers for Environmental Information explains that solstices and equinoxes mark the start of the astronomical seasons. These events occur when the sun reaches its most extreme position relative to the equator, either directly overhead or crossing it. Meteorological seasons split the year into three-month groups based on temperature cycles and "are more closely tied to our monthly civil calendar than the astronomical seasons are," according to the agency. According to the Old Farmer's Almanac, the summer solstice doesn't always occur on the same date. It can fall on June 20, 21, or 22, depending on the year. This is because the timing of the solstice isn't tied to a fixed calendar date. Instead, it's determined by the exact moment the sun reaches its northernmost point from the celestial equator during Earth's orbit. On the day of the summer solstice, the sun reaches its highest point in the sky at noon, and its position changes very little for several days before and after, according to the National Weather Service. This results in the longest day of the year and the shortest night. While the term "longest day" doesn't refer to the number of hours in the day, it does mean the day with the most sunlight.