Europe's Solar Orbiter clicks world's first picture of Sun's poles

The robotic Solar Orbiter spacecraft has obtained the first images ever taken of our sun's two poles as scientists seek a deeper understanding of Earth's host star, including its magnetic field, its 11-year cycle of activity and the solar wind.The European Space Agency on Wednesday released images taken in March using three of Solar Orbiter's onboard instruments.They show the sun's south pole from a distance of roughly 40 million miles (65 million km), obtained at a period of maximum solar activity. Images of the north pole are still being transmitted by the spacecraft back to Earth.Solar Orbiter, developed by ESA in collaboration with the U.S. space agency NASA, was launched in 2020 from Florida.advertisement
Until now, all the views of the sun have come from the same vantage point - looking face-on toward its equator from the plane on which Earth and most of the solar system's other planets orbit, called the ecliptic plane.Solar Orbiter used a slingshot flyby around Venus in February to get out of this plane to view the sun from up to 17 degrees below the solar equator. Future slingshot flybys will provide an even better view, at beyond 30 degrees.
This image shows Solar Orbiter's view of the Sun's south pole on 23 March 2025. (Photo: ESA)
"The best is still to come. What we have seen is just a first quick peek," said solar physicist Sami Solanki of the Max Planck Institute for Solar System Research in Germany, who heads the scientific team for the spacecraft's Polarimetric and Helioseismic Imager instrument.advertisement"The spacecraft observed both poles, first the south pole, then the north pole," Solanki said. "The north pole's data will arrive in the coming weeks or months."Solar Orbiter is gathering data on phenomena including the sun's magnetic field, its activity cycle, and the solar wind, a relentless high-speed flow of charged particles emanating from the sun's outermost atmospheric layer that fills interplanetary space."We are not sure what we will find, and it is likely we will see things that we didn't know about before," said solar physicist Hamish Reid of University College London's Mullard Space Science Laboratory, UK co-principal investigator of Solar Orbiter's Extreme Ultraviolet Imager instrument.The sun is a ball of hot electrically charged gas that, as it moves, generates a powerful magnetic field, which flips from south to north and back again every 11 years in what is called the solar cycle.The magnetic field drives the formation of sunspots, cooler regions on the solar surface that appear as dark blotches. At the cycle's beginning, the sun has fewer sunspots. Their number increases as the cycle progresses, before starting all over again."What we have been missing to really understand this (solar cycle) is what is actually happening at the top and bottom of the sun," Reid said.advertisement The sun's diameter is about 865,000 miles (1.4 million km), more than 100 times wider than Earth."Whilst the Earth has a clear north and south pole, the Solar Orbiter measurements show both north and south polarity magnetic fields are currently present at the south pole of the sun. This happens during the maximum in activity of the solar cycle, when the sun's magnetic field is about to flip. In the coming years, the sun will reach solar minimum, and we expect to see a more orderly magnetic field around the poles of the sun," Reid said."We see in the images and movies of the polar regions that the sun's magnetic field is chaotic at the poles at the (current) phase of the solar cycle - high solar activity, cycle maximum," Solanki said.The sun is located about 93 million miles (149 million km) from our planet."The data that Solar Orbiter obtains during the coming years will help modelers in predicting the solar cycle. This is important for us on Earth because the sun's activity causes solar flares and coronal mass ejections which can result in radio communicationblackouts, destabilize our power grids, but also drive the sensational auroras," Reid said.advertisement"Solar Orbiter's new vantage point out of the ecliptic will also allow us to get a better picture of how the solar wind expands to form the heliosphere, a vast bubble around the sun and its planets," Reid added.A previous spacecraft, Ulysses, flew over the solar poles in the 1990s."Ulysses, however, was blind in the sense that it did not carry any optical instruments - telescopes or cameras - and hence could only sense the solar wind passing the spacecraft directly, but could not image the sun," Solanki said.Must Watch

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

India Today

8 hours ago

• India Today

Longest day of the year on June 21: All about the summer solstice

As the Northern Hemisphere welcomes the arrival of summer, June 21, 2025, brings the year's longest day and shortest night—the summer astronomical phenomenon occurs when the Earth's tilt leans most directly toward the Sun, placing it at its highest point in the sky over the Tropic of solstice will officially occur at 8:12 am IST as most countries in the Northern Hemisphere will experience the longest daylight hours on June Countries like India, the United States, and much of Europe will enjoy extended sunshine, with the North Pole experiencing 24 hours of daylight. Photo: Nasa WHY WILL JUNE 21 BE THE LONGEST DAY OF THE YEAR?The solstice date varies slightly each year due to the fact that Earth's orbit around the Sun takes approximately 365.25 days. Leap years adjust for this, helping to keep our calendar aligned with the planet's the summer solstice highlights Earth's 23.5-degree axial tilt, the reason for our this day, the Sun's rays strike the Northern Hemisphere more directly and for a longer duration, providing the most sunlight of the contrast, the June solstice marks the shortest day of the year in the Southern Hemisphere. The farther a location is from the equator, the more noticeable this effect within the Antarctic Circle enter a period of polar night, during which the Sun doesn't rise above the horizon at all. Graphic: Nasa Beyond science, the solstice holds deep cultural and spiritual meaning. From ancient Egypt to modern England, people have observed this celestial event for thousands of remains a focal point, where crowds gather to witness the sunrise through the monument's ancient stones. In India, the solstice is closely followed by International Yoga Day, promoting harmony between body and summer solstice not only signals the beginning of astronomical summer but also invites reflection. As daylight begins to wane from June 22 onward, it shows nature's rhythms and the Earth's ceaseless Reel

Time of India

10 hours ago

• Time of India

Summer Solstice 2025: Is it June 20 or 21? Exact date, time & why it's the longest day of the year explained

Summer Solstice 2025: The summer solstice 2025 marks the official start of summer in the Northern Hemisphere and is known as the longest day of the year. Every year, people wonder whether the summer solstice falls on June 20 or June 21. This year, the exact moment of the summer solstice occurs on Friday, June 20, 2025, at 10:42 p.m. EDT, which corresponds to Saturday, June 21, 2025, at 02:42 UTC. This precise timing means that while some regions observe the solstice on June 20, others see it on June 21 depending on their time zone . When is the Summer Solstice 2025? June 20 or 21? The summer solstice 2025 officially takes place on June 20 at 10:42 p.m. Eastern Daylight Time in the United States. But, in the United Kingdom and parts of Europe, it will be early morning on June 21 at 3:42 a.m. BST. This difference is due to global time zones, which means the solstice date can appear as either June 20 or June 21 depending on your location. Why Is the Summer Solstice the longest day of the year? The summer solstice is the longest day because it is the moment when the Northern Hemisphere is tilted most directly toward the Sun. The Earth's axis is tilted about 23.44 degrees relative to its orbit around the Sun, and at the solstice, the Sun reaches its highest point in the sky at noon. This results in the maximum number of daylight hours and the shortest night of the year for the Northern Hemisphere. What happens during the June Solstice? At the June solstice, the Sun is directly overhead at the Tropic of Cancer, which is 23.5 degrees north of the equator. After this day, the Sun begins to move southward again. This astronomical event also means that locations farther north experience significantly longer daylight hours, with places inside the Arctic Circle witnessing the Midnight Sun, where the Sun never sets. Summer Solstice 2025: Local times around the world Because the solstice moment is the same worldwide, local dates and times vary. For example, it occurs late on June 20 in North America but early on June 21 in Europe and Asia. People in the Southern Hemisphere experience the winter solstice simultaneously, marking their shortest day and the start of winter. Cultural significance and celebrations of the Summer Solstice The summer solstice has been celebrated for centuries across many cultures. Known as Midsummer or Litha in some traditions, it is a time for festivals, rituals, and gatherings that honour the Sun's power and the abundance of summer. Many ancient monuments, like Stonehenge, align with the solstice sunrise, highlighting its historical importance. How does the Summer Solstice affect seasons? The solstices and equinoxes are key markers that define Earth's seasons. The summer solstice signals the start of summer in the Northern Hemisphere and winter in the Southern Hemisphere. This happens because of the Earth's axial tilt, not because of its distance from the Sun, which remains relatively constant throughout the year. FAQs 1. When is the summer solstice 2025? Answer: The summer solstice in 2025 occurs on June 20 at 10:42 p.m. EDT, which is June 21 at 2:42 UTC, depending on your time zone. 2. Why does the summer solstice date change between June 20 and 21? Answer: The solstice date varies due to Earth's orbit and time zone differences, causing the exact moment to fall late on June 20 in some places and early on June 21 in others. 3. What makes the summer solstice the longest day of the year? Answer: It is the longest day because the Northern Hemisphere is tilted most toward the Sun, resulting in the maximum hours of daylight. 4. What is the significance of the Tropic of Cancer during the summer solstice? Answer: The Sun is directly overhead at the Tropic of Cancer during the solstice, marking the northernmost point of the Sun's annual path. 5. How do different parts of the world experience the summer solstice? Answer: While the Northern Hemisphere enjoys the longest day and start of summer, the Southern Hemisphere experiences the shortest day and the beginning of winter simultaneously. For more informative articles on historical and upcoming events from around the world, please visit Indiatimes Events.

Indian Express

a day ago

• Indian Express

How scientists created an ‘artificial' total solar eclipse to unlock the Sun's secrets

The sun's corona (or outer atmosphere) has proved a difficult subject for solar scientists on Earth to study, appearing only in a total solar eclipse. This phenomenon, occurring once in around 18 months, was their only opportunity to observe parts of the corona. However, with Proba-3's recent mission, research can advance at a much quicker pace. The European Space Agency (ESA) on June 16, announced that the Proba-3 mission had created an 'artificial total solar eclipse' in orbit. This was achieved as the mission's two spacecraft – the Coronagraph and the Occulter – flew in formation 150 metres apart, and aligned so that the Occulter's disc covered the sun's disc, casting a shadow onto the Coronagraph's optical instrument. 'I was absolutely thrilled to see the images, especially since we got them on the first try,' Andrei Zhukov, principal investigator for ASPIICS at the Royal Observatory of Belgium, said in a statement. The mission was launched in December 2024. It involved sending both satellites into the solar orbit. In March this year, both spacecraft flew 150 metres apart, in formation up to to a millimetre's precision, without control from the Earth for several hours. When creating the artificial solar eclipse, the satellites aligned in formation based on the position of the Sun. Then, Occulter's 1.4-metre large disc would be used to block the sun's disc. This would cast a shadow of approximately 8 centimetre, across the Coronagraph's optical instruments, positioned behind the Occulter. Thanks to the precision, these instruments were able to provide the images of the corona. 'Our 'artificial eclipse' images are comparable with those taken during a natural eclipse. The difference is that we can create our eclipse once every 19.6-hour orbit, while total solar eclipses only occur naturally around once, very rarely twice a year. On top of that, natural total eclipses only last a few minutes, while Proba-3 can hold its artificial eclipse for up to 6 hours,' Zhukov explained. This mission could prove crucial for solar scientists, with previously unseen angles of the elusive corona becoming available for study. One benefit could be the study of solar wind, described by the ESA as 'the continuous flow of matter from the Sun into outer space.' Driven by the corona, these winds usually consist of charged particles, and constantly rain down upon the Earth as well. However, this can be interrupted by coronal mass ejections (CMEs), or solar storms. This subsequently affects space weather, which in turn can affect Earth's power grids, communication systems, and satellite operations. With the data from the Proba-3 mission and any subsequent missions focused on corona imaging, solar scientists can be better prepared for the potential threat of a severe solar storm – which NASA describes as 'a sudden explosion of particles, energy, magnetic fields, and material blasted into the solar system by the Sun'. Another question that Proba-3 would be able to solve is how the corona, which extends millions of miles across space, but still reaches temperatures above a million degrees Celsius, burns much hotter than the surface. To understand the reasoning, Proba-3 is attempting to study the corona at a minimal distance from the sun's surface. Due to the quality of the equipment, fewer stray rays would hit the detector, more details would be captured, and fainter features would be detected as compared to a traditional coronagraph. 'Current coronagraphs are no match for Proba-3, which will observe the Sun's corona down almost to the edge of the solar surface. So far, this was only possible during natural solar eclipses,' Jorge Amaya, Space Weather Modelling Coordinator at ESA, said in the ESA release. Alongside the key data provided by Proba-3, its precision flying in formation also paved the way for future missions, such as the ESA's Laser Interferometer Space Antenna (LISA), scheduled to launch in 2035. This mission will contain three identical spacecraft, arranged in an equilateral triangle formation, trailing behind the Earth in its orbit around the Sun. The mission is scheduled to last two years, aiming to capture images of the corona for further study, and then re-enter the Earth's atmosphere five years post-launch, as per the ESA. (This article has been curated by Purv Ashar, who is an intern with The Indian Express)