Tag Archives: active regions

How to Identify a Solar Cycle 25 Active Region

Northern Lights Now – Late 2019 and early 2020 mark the depths of the solar minimum and the transition from solar cycle 24 (SC24) to solar cycle 25 (SC25). During the transition, solar scientists watch active regions and identify them as part of the new cycle or the old cycle. Aurora hunters and space weather enthusiasts can follow along and track the progression of the solar cycle as there are more and more new cycle active regions.

Is this active region part of the new solar cycle?

Active regions that are part of the new solar cycle appear closer to the Solar North or South Poles – at higher latitudes – and they have reversed magnetic orientation from the ARs in the previous solar cycle.

Over the course of the cycle active regions appear progressively closer to the equator. At the turn of the solar cycle, new cycle ARs start appearing far from the equator. This can be seen in the Solar Cycle Butterfly Diagram from NASA below. Note the solar cycles are numbered on the lower graph, while the upper graph shows the latitude of the Sunspots at that time.

Butterfly diagram shows latitude of sunspots over the last 10 solar cycles
Butterfly diagram shows latitude of sunspots over the last 10 solar cycles

At the solar maximum of each solar cycle, the Sun’s polarity flips. At solar minimum, the orientation of active regions also reverses. For ARs, the flip means that the western most (leading) part of a active region in the new cycle will have the opposite polarity of the leading edge of ARs from the old cycle. That sounds complicated, so here is an example (click to zoom):

ARs from SC24 and SC25 compared to show the reversed polarity
ARs from SC24 and SC25 compared to show the reversed polarity

The example above shows two recent ARs from the current transition period. On the left is an HMI magnetogram image of AR 12723 from SC24 on Oct 30, 2018. On the right is an example from SC25, AR 12753 from around Christmas 2019. Notice that on the left image, blue and green indicating positive polarity are on to the West (right, leading) of the region while negative polarity represented as Red and Yellow are to the East. In the right image, Active Region 12753 from Christmas 2019 is from SC25. The polarity is reversed with yellow and red leading the way on the western flank of the active region. Also note that AR12753 is at a high latitude centered around 34 degrees south, while AR12723 is close to the solar equator.

In summary, Active regions can be identified as part of the new cycle if they meet these two criteria:

  • The AR should appear at a high latitude (closer to the pole), generally around 30 degrees.
  • It should have the reverse polarity from the previous solar cycle.

Happy Hunting!