<p>Scientists have found possible evidence of a source of energy that could be responsible for heating the Sun's atmosphere or corona.<br /><br />In the study published in the journal Nature Astronomy, the researchers used data from the FOXSI-2 sounding rocket - a rocket payload carrying seven telescopes designed to study the Sun.<br /><br />Space researchers have always wondered why the Sun's atmosphere or corona is so much hotter than its surface.<br /><br />The main obstacle in answering the question is the lack of suitable instruments for measuring what occurs on the Sun's surface and its atmosphere, 'Phys.org' reported.<br /><br />The researchers, including those from Japan Aerospace Exploration Agency, tested a theory that suggests heat is injected into the atmosphere by multiple tiny explosions on the surface of the Sun.<br /><br />Such flares are too small to see with most observational equipment, so the idea has remained just a theory.<br /><br />However, the new data offers some evidence suggesting the theory is correct.<br /><br />To test the theory, the researchers looked at X-ray emissions from the corona and found some that were very energetic.<br /><br />This is significant, because solar flares emit X-rays. However, the team was studying a part of the Sun that had no visible solar flares occurring at the time.<br /><br />The researchers suggest the only likely source is superheated plasma that could only have occurred due to nanoflares.</p>
<p>Scientists have found possible evidence of a source of energy that could be responsible for heating the Sun's atmosphere or corona.<br /><br />In the study published in the journal Nature Astronomy, the researchers used data from the FOXSI-2 sounding rocket - a rocket payload carrying seven telescopes designed to study the Sun.<br /><br />Space researchers have always wondered why the Sun's atmosphere or corona is so much hotter than its surface.<br /><br />The main obstacle in answering the question is the lack of suitable instruments for measuring what occurs on the Sun's surface and its atmosphere, 'Phys.org' reported.<br /><br />The researchers, including those from Japan Aerospace Exploration Agency, tested a theory that suggests heat is injected into the atmosphere by multiple tiny explosions on the surface of the Sun.<br /><br />Such flares are too small to see with most observational equipment, so the idea has remained just a theory.<br /><br />However, the new data offers some evidence suggesting the theory is correct.<br /><br />To test the theory, the researchers looked at X-ray emissions from the corona and found some that were very energetic.<br /><br />This is significant, because solar flares emit X-rays. However, the team was studying a part of the Sun that had no visible solar flares occurring at the time.<br /><br />The researchers suggest the only likely source is superheated plasma that could only have occurred due to nanoflares.</p>