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Newly observed active regions on the solar disk are assigned 4-digit region numbers by theSpace Weather Prediction Center (SWPC) on the day following the initial observation. The region number assigned to a particular active region is one added to the previously assigned number. For example, the first observation of active region 8090, or AR8090, was followed by AR8091.
According to the SWPC, a number is assigned to a region if it meets at least one of the following criteria:[7]
It contains a sunspot group of class C or larger based on the Modified Zurich Class sunspot classification system.
It contains a sunspot group of class A or B confirmed by at least two observers, preferably with observations more than one hour apart.
It containsplage with a white-light brightness of at least 2.5 (on a linear scale 1-5, 5=flare) and has an extent of at least fiveheliographic degrees.
It contains plage that is bright near the west limb and is suspected of growing.
The region numbers reached 10,000 in July 2002. However, the SWPC continued using 4-digits, with the inclusion of leading zeros.[8][9]
The Mount Wilson magnetic classification system, also known as the Hale magnetic classification system, is a method of classifying the magnetic field of active regions. It was first introduced in 1919 byGeorge Ellery Hale and coworkers working at theMount Wilson Observatory.[10] It originally included only the α, β, and γ magnetic classifications, but it was later modified by H. Künzel in 1965 to include the δ qualifier.[11][9]
An active region containing a single sunspot or group of sunspots all having the same magnetic polarity. An opposite polarity counterpart is still present, but is weak or not concentrated enough to form sunspots.
An active region with at least two sunspots or sunspot groups that have opposite magnetic polarity. A simple neutral line between the two polarities is also present.
An active region with sunspots having completely intermixed magnetic polarity.
β-γ
An active region with at least two sunspots or sunspot groups that have opposite magnetic polarity (hence β) but no well-defined neutral line dividing the opposite polarities (hence γ).
A qualifier to the other classes indicating the presence of opposite polarity umbrae within a single penumbra separated by at most 2° in heliographic distance.
β-δ
An active region with a β magnetic field and at least one pair of opposite polarity umbrae within a single penumbra (hence δ).
β-γ-δ
An active region with a β-γ magnetic field and at least one pair of opposite polarity umbrae within a single penumbra (hence δ).
γ-δ
An active region with a γ magnetic field and at least one pair of opposite polarity umbrae within a single penumbra (hence δ).
An active region seen in visible light showing a group of sunspots.The evolution of a group of sunspots in time.
The strong magnetic flux found in active regions is often strong enough to inhibitconvection. Without convection transporting energy from the Sun's interior to the photosphere, surface temperature decreases along with the intensity of emittedblack body radiation. These areas of cooler plasma are known as sunspots, and often appear in groups.[14] However, not all active regions possess sunspots.[8]
Active regions form through the process of magnetic flux emergence, during which magnetic fields generated by thesolar dynamo emerge from the solar interior.[15][16][17]: 118
