Add to ORKGReconstructions of long-term solar variability underpin our understanding of the solar dynamo, potential tropospheric climate implications and future space weather scenarios. Prior to direct spacecraft measurements of the heliospheric magnetic field (HMF) and solar wind, accurate annual reconstructions are possible using geomagnetic and sunspot records. On longer timescales, information about the HMF can be extracted from cosmogenic radionuclide records, particularly 14C in ancient trees and 10Be in ice sheets. These proxies, and what they reveal about the HMF and solar wind, are briefly reviewed here
We present two separate time series of the near-Earth heliospheric magnetic field strength (B) based...
This is Part 2 of a study of the near-Earth heliospheric magnetic field strength, B, since 1750. Par...
Galactic cosmic ray flux at Earth is modulated by the heliospheric magnetic field. Heliospheric modu...
Recent studies of the variation of geomagnetic activity over the past 140 years have quantified the ...
Historic geomagnetic activity observations have been used to reveal centennial variations in the ope...
The heliospheric magnetic field (HMF) is the extension of the coronal magnetic field carried out int...
The most recent “grand minimum” of solar activity, the Maunder minimum (MM, 1650–1710), is of great ...
The Sun’s long-term magnetic variability is the primary driver of space climate. This variability is...
Context: Cosmogenic isotopes provide useful estimates of past solar magnetic activity, constraining ...
The Sun’s long-term magnetic variability is the primary driver of space climate. This variability is...
Recent studies of the variation of geomagnetic activity over the past 140 years have quantified the ...
Stellar astronomy tells us much about the long-term evolution of our Sun while forensic evidence (fo...
This is Part 2 of a study of the near-Earth heliospheric magnetic field strength, B, since 1750. Par...
[1] Galactic cosmic ray flux at Earth is modulated by the heliospheric magnetic field. Heliospheric ...
We present two separate time series of the near-Earth heliospheric magnetic field strength (B) based...
We present two separate time series of the near-Earth heliospheric magnetic field strength (B) based...
This is Part 2 of a study of the near-Earth heliospheric magnetic field strength, B, since 1750. Par...
Galactic cosmic ray flux at Earth is modulated by the heliospheric magnetic field. Heliospheric modu...
Recent studies of the variation of geomagnetic activity over the past 140 years have quantified the ...
Historic geomagnetic activity observations have been used to reveal centennial variations in the ope...
The heliospheric magnetic field (HMF) is the extension of the coronal magnetic field carried out int...
The most recent “grand minimum” of solar activity, the Maunder minimum (MM, 1650–1710), is of great ...
The Sun’s long-term magnetic variability is the primary driver of space climate. This variability is...
Context: Cosmogenic isotopes provide useful estimates of past solar magnetic activity, constraining ...
The Sun’s long-term magnetic variability is the primary driver of space climate. This variability is...
Recent studies of the variation of geomagnetic activity over the past 140 years have quantified the ...
Stellar astronomy tells us much about the long-term evolution of our Sun while forensic evidence (fo...
This is Part 2 of a study of the near-Earth heliospheric magnetic field strength, B, since 1750. Par...
[1] Galactic cosmic ray flux at Earth is modulated by the heliospheric magnetic field. Heliospheric ...
We present two separate time series of the near-Earth heliospheric magnetic field strength (B) based...
We present two separate time series of the near-Earth heliospheric magnetic field strength (B) based...
This is Part 2 of a study of the near-Earth heliospheric magnetic field strength, B, since 1750. Par...
Galactic cosmic ray flux at Earth is modulated by the heliospheric magnetic field. Heliospheric modu...