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Our sun is part of grand cosmic symphony, whose movements span billions upon billions
of years.
We are its audience, captivated by the intricate timing of its notes.
In its fourth year in orbit, NASA's Solar Dynamics Observatory has brought us front
row center to a show filled with radiant bursts and dark mysteries.
SDO captures images of the sun in 10 different wavelengths, highlighting a range of surface
temperatures. These show specific structures, such as solar flares -- giant explosions of
light and x-rays -- and coronal loops -- streams of solar material that travel up and down
looping magnetic field lines.
These field lines can launch prominence eruptions, when masses of solar material blast off the
surface of the sun, often falling back in vast torrents of fire.
Eruptions like these are often associated with dark cool regions called sunspots, below
which tangled magnetic fields cause the energy to build to extremes.
One of the largest sunspot clusters in recent years appeared in January 2014. It was a prelude
to a powerful X-class flare.
The sun is a complex electromagnetic system, powered by energy generated deep in its core.
Scientists study these images because solar eruptions can pose a danger to spacecraft
and power systems on Earth, and because they reveal the inner moods of countless stars
that live, evolve, and finally die, all across the stage of time and space.