Current understanding of solar physics and the known sources of
irradiance variability suggest comparable irradiance levels during the past two solar cycles, including at solar minima.
Current understanding of solar physics and the known sources of
irradiance variability suggest comparable irradiance levels during the past two solar cycles, including at solar minima.
Not exact matches
The solar UV
irradiance from the thermosphere of Saturn and the solar wind are the most probable sources to account for the long - term
variability of the electron radiation belts (Roussos et al. 2014),
suggesting that external drivers play indeed an important role in Saturn's magnetospheric dynamics.
Research
suggests that solar
variability accounts for up to 68 % of the increase in earths temperatures with strong association between solar sunspots /
irradiance and global temperature fluctuations.
Further, our temperature reconstructions, within age uncertainty, can be well correlated with solar
irradiance changes,
suggesting a possible link between solar forcing and natural climate
variability, at least on the northern Tibetan Plateau.»