June Solar Update

Guest essay by David Archibald

We have only 300 years-odd of detailed solar observations with telescopes, half that of magnetic records, half again in the radio spectrum and less than that for most modern instrument records (and 12 years of Watts Up With That to interpret it). So as the months pass our knowledge of solar activity is still growing appreciably. The evidence points to a major transition of activity in 2006 which has returned us to the solar conditions of the 19th century. 19th century-type climate is expected to follow.

Figure 1: F10.7 Flux 1948 to 2018

We now have 70 years of F10.7 data. The F10.7 flux is considered to be the most accurate measure of solar activity. The solar cycles are numbered. Solar Cycle 24 has about two years to go before the month of minimum. To date the F10.7 flux has had a floor of 64.

Figure 2: Interplanetary Magnetic Field 1966 – 2018

The interplanetary magnetic field has been in a downtrend since the early 1980s with the last three solar minima lining up. If this trend continues then it will get down to a monthly average of 2.8 in 2020 at the 24/25 minimum.

Figure 3: aa Index Monthly Smooted 1868 – 2018

We now have 150 years of daily aa Index data. This is a geomagnetic index of the Sun’s magnetic activity. This graph explains why the world warmed in the second half of the 20th century. In the 67 years of data up to 1935, the Sun’s magnetic shield of the Earth averaged 15.7 on the aa Index. In the subsequent 71 years of the Modern Warm Period up to 2006, this shield was 50 per cent stronger, averaging 23.2 on the aa Index. Since 2006, the aa Index has been at Little Ice Age-like levels with an average of 15.8 and falling as we go further into the 24/25 solar minimum.

Figure 4: Average temperature along 59 N, 30-0W, 0-800m depth

This graph, from Professor Ole Humlum’s climate4you site, shows the Argo temeperature data of the area ccorresponding to the main part of the North Atlantic Current. The Argo floats were launched in 2004, just in time to capture the start of the temperature decline from the end of the Modern Warm Period in 2006. Where the temperature decline will stop is open to conjecture.

Figure 5: Alpha Particle to Proton Ratio in the Solar Wind

Another sign that the Sun is quieting down is the alpha particle to proton ratio in the solar wind which peaked in intensity in 1991. This ratio is now at a third of its peak with room for further decline into the 24/25 solar minimum.

Figure 6: Solar Wind Flow Pressure

This graph of the solar wind flow pressure confirms, for the period of the instrument record, the Sun was most active in 1991. Note that the second half of Solar Cycle 24 was far more active than the first half up to 2014, despite the declining F10.7 flux.

Figure 7: Oulu Neutron Count 1964 – 2018

The 1991 spike in the solar wind flow pressure resulted in a spike down in the cosmic ray flux at the Earth’s orbit as captured by this graph of the neutron flux data from the Oulu station in Finland. That was also the year of the Mt Pinatubo eruption, the cooling from which overwhelmed any solar signal in the temperature record.

Figure 8: Oulu Neutron Monitor Aligned on Month of Solar Minimum

The neutron flux is where the rubber meets the road in terms of the interaction of solar activity and climate. Cosmic rays are dominantly protons and helium atoms. They hit oxygen and nitrogen atoms in the upper atmosphere and cause a cascade of particles in the lower atmosphere which can be holding enough water for cloud droplet formation but lacks nucleation sites. The increased cloud cover during low solar acitivity increases the Earth’s albedo and the atmosphere cools.

Despite the solar wind and the aa Index being much stronger in the second half of the current solar cycle, the neutron flux is at a new high relative to previous cycles. The Oulu neutron flux is on track to reach 7,000 during solar minimum.

Figure 9: F10.7 Flux and Oulu Neutron Count 1964 – 2018

The Oulu neutron flux also illustrated the end of the Modern Warm Period in 2006. This figure shows it inverted against the F10.7 flux. The transition from the Modern Warm Period did not wait for the end of Solar Cycle 23 in 2008, the neutron flux shows an abrupt change to a lower level of activity in 2006.

Figure 10: Solar Polar Field Strength Aligned on Minimum

The strength of the next solar cycle can be determined by the solar polar field strength at solar minimum. That is tracking for Solar Cycle 25 to be much the same as the amplitude of Solar Cycle 24. This is a return to the solar conditions that characterised the 19th century.

David Archibald is the author of American Gripen: The Solution to the F-35 Nightmare

via Watts Up With That?


July 6, 2018 at 02:39AM

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