SOHO and other spacecraft helped
explain changes in magnetic field Voyager 1 detected, which appeared to shift with changes in the solar wind.
Since then scientists have gathered further data in which to help
explain the changes in the magnetic field that have been happening more recently.
Not exact matches
The record provides historical context to help
explain recent, ongoing
changes in the
magnetic field, most prominently
in an area
in the Southern Hemisphere known as the South Atlantic Anomaly.
«Our magnetometers (
magnetic field sensors) are highly sensitive and can reliably measure even the smallest of
changes in the ambient
magnetic field,»
explains Professor Uwe Hartmann.
Physicists at the U.S. Department of Energy's Ames Laboratory compared similar materials and returned to a long - established rule of electron movement
in their quest to
explain the phenomenon of extremely large magnetoresistance (XMR),
in which the application of a
magnetic field to a material results
in a remarkably large
change in electrical resistance.
After all, the implied
changes in GCR flux are huge compared to what is expected from the gentle modulation of the Earth's
magnetic field arising from recent solar activity
changes (not that there's any trend
in those that would
explain recent warming).
After all, the implied
changes in GCR flux are huge compared to what is expected from the gentle modulation of the Earth's
magnetic field arising from recent solar activity
changes (not that there's any trend
in those that would
explain recent warming).
Their influence on the atmospheric circulation is focused on the polar regions by the Earth's
magnetic field [the opposite phase of the
changes in the Arctic and the Antarctic can be
explained by the phenomenon of «solar system dissymmetry» as a result of which fluctuations of solar constant occur].