The sun as we've never seen it before - clearest and most detailed images of the Sun revealed
The clearest and most detailed images of the Sun have been captured by the largest telescope in the world.
Just-released first images and videos from the National Science Foundation鈥檚 (NSF) Daniel K. Inouye Solar Telescope reveal unprecedented detail of the Sun鈥檚 surface, with experts saying it will enable a new era of solar science and a leap forward in understanding the Sun and its impacts on our planet.
The new images from NSF鈥檚 Inouye Solar Telescope 4-meter solar telescope, which sits near the summit of Haleakal膩 in Hawai驶i, show a close-up view of the Sun鈥檚 surface including a pattern of turbulent 鈥渂oiling鈥 plasma that covers the entire Sun. The images also show cell-like structures - each about the size of Texas - which are the signature of violent motions that transport heat from inside the Sun to its surface.
They were taken with cameras developed and supplied to the project by a UK consortium which is led by Queen鈥檚 University Belfast, and involves seven other UK institutes and industry including Andor Technology, Armagh Observatory, University of Glasgow, UCL Mullard Space Science Laboratory, Northumbria University, University of Sheffield, St. Andrews University and University of Warwick. Funding has been provided by UK Research and Innovation鈥檚 Science and Technology Facilities Council.
Professor Mihalis Mathioudakis from Queen鈥檚 University Belfast, who led the UK consortium, said: 鈥淭he imaging produced by the Inouye Solar Telescope opens new horizons in solar physics. Its imaging capability allows us to study the physical processes at work in the Sun鈥檚 atmosphere at unprecedented levels of detail. We worked hard over the past few years with Belfast-based Andor Technology to develop the cameras that equip the Inouye Solar Telescope and it is highly rewarding to now see this fascinating imaging.鈥
Experts say the telescope will play a critical role in better understanding the Sun and space weather, and provide important details for scientists.
NSF Director, France C贸rdova, said, 鈥淣SF鈥檚 Inouye Solar Telescope will be able to map the magnetic fields within the Sun鈥檚 corona, where solar eruptions occur that can impact life on Earth. This telescope will improve our understanding of what drives space weather and ultimately help forecasters better predict solar storms.鈥
Activity on the Sun, known as space weather, can affect systems on Earth. Magnetic eruptions on the Sun can impact air travel, disrupt satellite communications and bring down power grids, causing long-lasting blackouts and disabling technologies such as GPS.
Finally resolving these tiny magnetic features is central to what makes the Inouye Solar Telescope unique. It can measure and characterise the Sun鈥檚 magnetic field in more detail than ever seen before and determine the causes of potentially harmful solar activity.
鈥淚t鈥檚 all about the magnetic field,鈥 said Thomas Rimmele, director of the Inouye Solar Telescope. 鈥淭o unravel the Sun鈥檚 biggest mysteries, we have to not only be able to clearly see these tiny structures from 93 million miles away but very precisely measure their magnetic field strength and direction near the surface and trace the field as it extends out into the million-degree corona, the outer atmosphere of the Sun.鈥
Better understanding the origins of potential disasters will enable governments and utilities to better prepare for inevitable future space weather events. It is expected that notification of potential impacts could occur earlier - as much as 48 hours ahead of time instead of the current standard, which is about 48 minutes. This would allow for more time to secure power grids and critical infrastructure and to put satellites into safe mode.
NSF鈥檚 new ground-based Inouye Solar Telescope will work with space-based solar observation tools such as NASA鈥檚 Parker Solar Probe (currently in orbit around the Sun) and the European Space Agency/NASA Solar Orbiter (soon to be launched). The three solar observation initiatives will expand the frontiers of solar research and improve scientists鈥 ability to predict space weather.
鈥淭hese first images are just the beginning,鈥 said David Boboltz, programme director in NSF鈥檚 division of astronomical sciences and who oversees the facility鈥檚 construction and operations. 鈥淥ver the next six months, the Inouye telescope鈥檚 team of scientists, engineers and technicians will continue testing and commissioning the telescope to make it ready for use by the international solar scientific community. The Inouye Solar Telescope will collect more information about our Sun during the first five years of its lifetime than all the solar data gathered since Galileo first pointed a telescope at the Sun in 1612.鈥