The findings, made by Professor Terry Sloan at the University of Lancaster and Professor Sir Arnold Wolfendale at the University of Durham, find that neither changes in the activity of the Sun, nor its impact in blocking cosmic rays, can be a significant contributor to global warming.
Changes in the amount of energy from the Sun reaching the Earth have previously been proposed as a driver of increasing global temperatures, as has the Sun's ability to block cosmic rays.
According to this proposal, in periods of high activity the Sun blocks some of the cosmic rays from entering the Earth's atmosphere, so that fewer clouds form and the Earth's surface temperatures rise.
In an attempt to quantify the effect that solar activity - whether directly or through cosmic rays - may have had on global temperatures in the twentieth century, researchers compared data on the rate of cosmic rays entering the atmosphere, which can be used as a proxy for solar activity, with the record of global temperatures going back to 1955.
By comparing the small oscillations in cosmic ray rate, which was taken from data from two neutron monitors, and temperature with the overall trends in both since 1955, Sloan and Wolfendale found that less than 14 per cent of the global warming seen during this period could be attributable to solar activity.