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World Entering A Deep Solar Minimum

Paul Dorian,

The sun continues to be very quiet and it has been without sunspots this year 62% of the time as we approach what is likely to be one of the deepest solar minimums in a long, long time.

Daily observations of the number of sunspots since 1 January 1977 according to Solar Influences Data Analysis Center (SIDC). The thin blue line indicates the daily sunspot number, while the dark blue line indicates the running annual average. The recent low sunspot activity is clearly reflected in the recent low values for the total solar irradiance. Compare also with the geomagnetic Ap-index. Data source: WDC-SILSO, Royal Observatory of Belgium, Brussels. Last day shown: 31 May 2019. Last diagram update: 1 June 2019 . [Courtesy]

In fact, all indications are that the upcoming solar minimum may be even quieter than the last one which was the deepest in nearly a century.  In addition, there are now forecasts that the next solar cycle, #25, will be the weakest in more than 200 years.  The current solar cycle, #24, has been the weakest with the fewest sunspots since solar cycle 14 peaked in February 1906. Solar cycle 24 continues a recent trend of weakening solar cycles which began with solar cycle 21 that peaked around 1980 and if the latest forecasts are correct, that trend will continue for at least another decade or so.

The Earth-facing side of the sun is blank again today which marks the 31st spotless day in a row; courtesy , NASA
The Earth-facing side of the sun is blank again today which marks the 31st spotless day in a row; courtesy, NASA

Deep solar minimum

The sun is blank again today and this is the 31st spotless day in a row which is just two behind the total (33) set earlier this year making the current Solar Cycle (SC24) hitting over 30 day totals for consecutive spotless days on four occasions, last seen in the 1910’s .  We are now entering into the next solar minimum phase and there are indications that it will be as deep and long as any in more than a century.  The solar minimum is a somewhat misunderstood phase of the solar cycle which is not without its consequences. 

One of the natural impacts of decreasing solar activity is the weakening of the ambient solar wind and its magnetic field which, in turn, allows more and more cosmic rays to penetrate the solar system. Galactic cosmic rays are high-energy particles originating from outside the solar system that can impact the Earth’s atmosphere. Our first line of defense from cosmic rays comes from the sun as its magnetic field and the solar wind combine to create a ‘shield’ that fends off cosmic rays attempting to enter the solar system. The shielding action of the sun is strongest during solar maximum and weakest during solar minimum with the weakening magnetic field and solar wind.  The intensity of cosmic rays varies globally by about 15% over a solar cycle because of changes in the strength of the solar wind, which carries a weak magnetic field into the heliosphere, partially shielding Earth from low-energy galactic charged particles.

In addition to its impact on cosmic rays, as the sun’s magnetic field weakens, holes open in the sun’s atmosphere. Emerging streams of solar wind buffet Earth’s magnetic field, sustaining auroras even without solar flares and sunspots. Some observers believe that solar minimum auroras have a distinctive palette, pinker than during other phases of the solar cycle.

Noctilucent clouds over Herzogswalde, Germany on June 17th. Credit: Heiko Ulbricht,
Noctilucent clouds over Herzogswalde, Germany on June 17th. Credit: Heiko Ulbricht,

Finally, during a solar minimum, noctilucent clouds tend to become more prevalent as this period favors the frosting of meteor smoke high above the Earth. Water molecules stick to specks of meteor smoke, gathering into icy clouds that glow electric blue when they are hit by high altitude sunlight. Extreme ultraviolet radiation (EUV) radiation can destroy those water molecules before they freeze. Less EUV during solar minimum could therefore give us more noctilucent clouds. As we enter perhaps the deepest solar minima of the past century, extreme ultraviolet radiation from the sun is at its lowest level in a decade–a deficit that can lead directly to more noctilucent clouds. Coincidentally, the 2019 season for noctilucent clouds began in late May just as the sun entered a period of sustained spotlessness – now up to 31 days in a row. (For more information on the connection between solar activity and noctilucent clouds click here).

Solar cycle 25

The very latest forecast for the next solar cycle (#25) says it will be weaker than the just ending SC24 and the weakest of the last 200 years. To be fair, solar cycle forecasting is quite difficult and earlier forecasts had the next solar cycle being in similar magnitude to SC24.  However, research now underway has apparently found a more reliable method to predict space weather. The maximum of this next cycle – measured in terms of sunspot numbers, could be 30 to 50% lower than the most recent one – Cycle 24 according to the latest forecast. The results of this new forecasting technique show that the next solar cycle will start in 2020 and reach its maximum in 2025.

The new forecast is the work of a team led by Irina Kitiashvili of the Bay Area Environmental Research Institute at NASA’s Ames Research Center in Silicon Valley, California. Using data collected since 1976 from the Solar and Heliospheric Observatory and the Solar Dynamics Observatory space missions, the researchers were able to come up with a prediction by directly observing the solar magnetic field rather than simply counting sunspots, which provides only a rough gauge of activity inside the Sun. Because this is a relatively new approach, there is only data from four complete cycles, but by combining three sources of solar observations with estimates of the Sun’s interior activity, the team was able to produce a prediction in 2008 that matched the activity that was observed over the past 11 years.

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