July 22nd, 2012 by James Ayre
The highest-resolution images ever taken of the Sun’s corona were just released by NASA. The solar corona is the million-degree or so outer atmosphere. The 16-megapixel images, taken in the extreme-ultraviolet wavelength of light, were captured by NASA’s High Resolution Coronal Imager, or Hi-C, which was launched on a sounding rocket on July 11th. The Hi-C telescope is capable of five times more detail than the next-best observations by NASA’s Solar Dynamics Observatory.
“Even though this mission was only a few minutes long, it marks a big breakthrough in coronal studies,” said Smithsonian astronomer Leon Golub (Harvard-Smithsonian Center for Astrophysics), one of the lead investigators on the mission.
Understanding solar activity and how it affects Earth’s environment was the main scientific objective of Hi-C, “which provided unprecedented views of the dynamic activity and structure in the solar atmosphere.”
“The corona surrounds the visible surface of the Sun. It’s filled with million-degree ionized gas, or plasma, so hot that the light it emits is mainly at X-ray and extreme-ultraviolet wavelengths. For decades, solar scientists have been trying to understand why the corona is so hot, and why it erupts in violent solar flares and related blasts known as ‘coronal mass ejections,’ which can produce harmful effects when they hit Earth. The Hi-C telescope was designed and built to see the extremely fine structures thought to be responsible for the Sun’s dynamic behavior.”
“The phrase ‘think globally, act locally’ applies to the Sun too. Things happening at a small, local scale can impact the entire Sun and result in an eruption,” explained Golub.
“Hi-C focused on an active region on the Sun near sunspot NOAA 1520. The target, which was finalized on launch day, was selected specifically for its large size and active nature. The resulting high-resolution snapshots, at a wavelength of 19.3 nanometers (25 times shorter than the wavelength of visible light), reveal tangled magnetic fields channeling the solar plasma into a range of complex structures.”
“We have an exceptional instrument and launched at the right time,” said Jonathan Cirtain, senior heliophysicist at NASA’s Marshall Space Flight Center. “Because of the intense solar activity we’re seeing right now, we were able to clearly focus on a sizeable, active sunspot and achieve our imaging goals.”
“Since Hi-C rode on a suborbital rocket, its flight lasted for just 10 minutes. Of that time, only about 330 seconds were spent taking data. Yet those images contain a wealth of information that astronomers will analyze for months to come.”
“The Hi-C flight might be the most productive five minutes I’ve ever spent,” Golub smiled.
It was possible to take the high-resolution images because of innovations on Hi-C’s telescope, which directs light to the camera detector.
“The telescope includes some of the finest mirrors ever made for a space mission. Initially developed at NASA’s Marshall Space Flight Center in Huntsville, Ala., the mirrors were completed with inputs from partners at the Smithsonian Astrophysical Observatory (SAO) in Cambridge, Mass., and a new manufacturing technique developed in coordination with L-3Com/Tinsley Laboratories of Richmond, Calif. The mirrors were made to reflect extreme-ultraviolet light from the Sun by Reflective X-ray Optics LLC of New York, NY, and the telescope was assembled at the SAO labs in Cambridge, Mass.”
In related news, a large M-Class solar flare recently exploded from the sun. Another in a string of powerful solar flares that have been released as the solar cycle approaches its peak.
Image Credits: NASA; Solar Eclipse via Wikimedia Commons
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