Solar flare

Solar flare and its prominence recorded on June 7, 2011 by SDO in extreme ultraviolet.

A solar flare or solar limb is a sudden brightening observed over the Sun's surface. It is a large energy release of up to 6 × 10²⁵ joules of energy. The energy is about a sixth of the total energy that is released from the Sun each second equal to 160,000,000,000 megatons of TNT. It can also be compared with the impact of Comet Shoemaker-Levy 9 with Jupiter. The release is then followed by a colossal coronal mass ejection also known as a CME.^[1] The first flare releases clouds of electrons, ions, and atoms through the corona of the Sun into space. These clouds usually reach planet Earth a day or two after this has happened.^[2] A solar flare is sometimes referred to another phenomena in other stars, such as stellar flare.

Solar flares affect all layers of the solar atmosphere such as the photosphere, chromosphere, and corona. Solar flares produce radiation across the electromagnetic spectrum at all wavelengths from radio waves to gamma rays. Most of the energy goes to frequencies outside its range and because of this most of the flares cannot be seen by the naked eye. Solar flares are observed (looked at) with special instruments. Solar flares occur in active regions around sunspots. Solar flares are powered by the sudden release of magnetic energy that is stored in the corona. The same energy releases may produce coronal mass ejections (CME), although the relation between CMEs and flares is still not known.

X-rays and UV radiation that is released by solar flares can affect Earth's ionosphere. Because of this, radio communications, radars and other devices may be disrupted for a short time. Richard Christopher Carrington was the first person to observe a solar flare in 1859.^[3] Carrington had spotted brightening's of small areas within a sunspot group. Stellar flares have also been observed on several of other stars. Solar flares can be "active" from several flares a day or "quiet" from several flares every week. Solar flares occurs during the 11-year cycle (the solar cycle). There are less "large flares" than smaller ones.

References[change | change source]

↑ Kopp, Greg; Lawrence, George; Rottman, Gary (2005). "The Total Irradiance Monitor (TIM): Science Results". Solar Physics. 20 (1–2): 129–139. Bibcode:2005SoPh..230..129K. doi:10.1007/s11207-005-7433-9. S2CID 44013218.
↑ Menzel, Whipple, and de Vaucouleurs, "Survey of the Universe", 1970
↑ "Description of a Singular Appearance seen in the Sun on September 1, 1859", Monthly Notices of the Royal Astronomical Society, v20, pp13+, 1859

Other websites[change | change source]

Live Solar Images and Data Site Includes x-ray flare, geomagnetic, space weather information detailing current solar events.
Solar Cycle 24 and VHF Aurora Website (www.solarcycle24.com)
Solar Weather Site
Current Solar Flare - and geomagnetic activity in dashboard style (www.solar-flares.info) Archived 2021-02-25 at the Wayback Machine
STEREO Spacecraft Site

[Kopp2005-1] Kopp, Greg; Lawrence, George; Rottman, Gary (2005). "The Total Irradiance Monitor (TIM): Science Results". Solar Physics. 20 (1–2): 129–139. Bibcode:2005SoPh..230..129K. doi:10.1007/s11207-005-7433-9. S2CID 44013218.

[2] Menzel, Whipple, and de Vaucouleurs, "Survey of the Universe", 1970

[Carrington1859-3] "Description of a Singular Appearance seen in the Sun on September 1, 1859", Monthly Notices of the Royal Astronomical Society, v20, pp13+, 1859

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