# Spotless Days

Regular solar observers have noticed that since mid-2016, the Sun has occasionally been devoid of sunspots. These spotless disks will gradually become a familiar feature as the solar cycle is heading for its next minimum, currently expected by the end of this decade. The number of spotless days can vary significantly from one solar cycle transit to another. For example, during the previous minimum (around 2008), no less than 817 spotless days were recorded, whereas the minimum period leading into solar cycle 23 (around 1996) counted only 309 such blemishless days.

As the current solar cycle 24 will gradually give way to the new solar cycle 25, several consecutive days and even weeks without sunspots will become the norm. In order to have an idea on the number of spotless days, and how these numbers compare to past solar cycles, the SILSO folks have created a “Spotless Days page”. This page contains graphs and tables on the accumulated number of spotless days, stretches of spotless days, and comparisons to other solar cycles – all supplemented with a word of explanation.

The previous minimum surprised scientists and solar observers by being the deepest in nearly 90 years. Will the upcoming solar cycle minimum show as many spotless days, or will solar cycle 25 take off much faster than expected? This “Spotless Days page” will provide you with a front-row seat on the current status of the solar cycle minimum and the number of spotless days. Enjoy!

__Evolution of spotless days in SC24-25 and comparison with other cycle transits__

__Evolution of spotless days in SC24-25 and comparison with other cycle transits__

The thick green line in the graph above shows the accumulated (total number of) spotless days so far during the transit from solar cycle 24 to 25.
The thick blue and red line show the same parameter, but respectively for the average of solar cycles 10 to 15 and 24 (SCo), and of solar cycles 16 to 23 (SCn).

This distinction is made because the first group has a long delay (about 4 years) and many spotless days (almost 800 on the average),
whereas the other group has barely 2 years between the month with the 10th spotless day and the cycle minimum, and not even half of the total number of spotless day of the first group (less than 400 days!).

It must be noted that the extremes between the cycles in a group can be even more significant: For example, in the SCo-group, the final number of spotless days has varied between 406 and 1028!

__Monthly number of spotless days__

__Monthly number of spotless days__

The two graphs above show the monthly number of spotless days during this cycle transit (red) compared to respectively the average number during SC10 to 15 and 24 (SCo; top), and during SC16 to 23 (SCn; bottom). The baseline is again the month with the 10th spotless day after solar cycle maximum. Any spotless days happening more than 12 months before this baseline (month "0") have been accumulated in month "-12". The "T"'s represent the standard deviations. There's a big difference between the two groups, with the SCn-group peaking early around 2 years with an average of about 10-15 spotless days per month, whereas the SCo-group peaks only after 4 years with an average of 15-20 spotless days per month.

__Main characteristics per solar cycle__

__Main characteristics per solar cycle__

The table above gives for each new solar cycle the date of the first spotless day (after solar maximum...), the month with the 10th spotless day, the month in which the (Meeus smoothed) solar cycle minimum took place,
the delay in months between those last 2 timings, and the total number of spotless days that occurred during the cycle transition.

As can be seen, there is a big difference between the two solar cycle groups.

The first group (SCo; light blue) has a rather long delay (47 months) and many spotless days (about 800 on the average), whereas the other group (SCn; yellowish) has only 25 months between the month with the 10th spotless day and cycle minimum.

Notice also the very narrow band in timings (only 4 months!) for the SCn-group. The SCn-group contains on the average not even half of the total number of spotless day of the SCo-group (less than 400 days vs. 800!).

Note there's no obvious correlation between the total number of spotless days and the subsequent solar cycle maximum (r2=0.35). For example, a total of 200 to 400 spotless days can result in a cycle maximum sunspot number between 150 and 250.
Not very accurate indeed! In view of the ongoing revision of the sunspot number, it is possible there may be some changes in the number of spotless days for SC10-11.

__Periods with spotless days (>30 days) since 1849__

__Periods with spotless days (>30 days) since 1849__

The table above shows all periods with 30 or more consecutive spotless days. The period from 31 July 2009 till 31 August 2009 (SC23-24 transit) is one of the longer ones since the beginning of daily solar observations in 1849.
It is interesting to note that the longest spotless stretch during the SC23-SC24 transit was also the last to make it into the table above.
An even longer period in recent history occurred during the SC22-SC23 transition, from 13 September 1996 till 24 October 1996, when the Sun was spotless for 42 consecutive days.

One of the longest spotless periods (since 1818) is probably from 24 October 1822 till 12 March 1823 (140 days!), but unfortunately, the series are broken on 29 December 1822 (no observation available for that day).

__Top 25 of years with most number of spotless days since 1849__

__Top 25 of years with most number of spotless days since 1849__

This graph shows the number of spotless days per year since 1849. There are 112 years (including 2014 and 2017) with at least 1 spotless day, of which 25 years with 150 or more spotless days. 1913 is recordholder with a staggering 311 days, while 2008 ranks fourth in years with a spotless sun (265 days). With 262 days, 2009 falls just short of 2008 but it still makes it in the top 5 of years with most blanc suns, testifying of the deep minimum prior to the onset of SC24. With 84 spotless days, the first half of 2018 totals almost the same number as during the entire 2017 (96)

__Number of spotless days vs. Solar Cycle amplitude__

__Number of spotless days vs. Solar Cycle amplitude__

The graph above shows the evolution of the total number of spotless days per cycle minimum transition and the yearly international sunspot number (Sn) since 1818. Note the values for Sn are in reverse order. The number of spotless days has been set in the year of the cycle minimum. For example, there were 817 spotless days during the SC23-24 transition, and this data point has been set in 2008, the year of the solar cycle minimum. There are some missing data for the period 1818-1849, and the data for SC10-11 are under revision, but all in all this graph conveys pretty well that -in general- a low amplitude cycle is preceded by a solar cycle transition with a high number of spotless days, and vice versa. Nonetheless, there are some notable exceptions, such as SC16 and SC20. The blue dot to the lower right represents the number of spotless days (208) for the current cycle transition. It is obviously too early to conclude anything about the amplitude of the next solar cycle.