Though the sun is
currently in the peak year of its 11-year solar weather cycle, our closest star
has been rather quiet over all, scientists say.
This year's solar
maximum is shaping up to be the weakest in 100 years and the next one could be
even more quiescent, scientists said Thursday (July 11).
"It's the smallest
maximum we've seen in the Space Age," David Hathaway of NASA's Marshall
Space Flight Center in Huntsville, Ala., told reporters in a teleconference.
During a solar maximum,
the number of sunspots increases. These dark temporary regions on the surface
of the sun are thought to be caused by interplay between the sun's plasma and
its magnetic field. Sunspots are the source of the solar flares and ejections
that can send charge particles hurtling toward Earth, which can damage
satellites, surge power grids, cause radio blackouts and, more benignly,
produce dazzling auroras above the planet.
About every 11 years,
the sun goes through a cycle defined by an increasing and then decreasing
number of sunspots. Solar Cycle 24 has been underway since 2011 and its peak
was expected in 2013, but there have been fewer sunspots observed this year
compared with the maximums of the last several cycles.
Giuliana de Toma, a
scientist at the High Altitude Observatory in Colorado, said the sunspots
occurring during a calm maximum have the same brightness and area as the ones
observed during a more turbulent peak.
"We just have
fewer of them and this is normal," de Toma said during Thursday's
briefing. "This is why weak cycles are weak."
The quiet maximum is
allowing scientists to test their knowledge of how the sun works and hone their
predictions of the strength of future solar cycles.
"You might think
that having a small cycle is disappointing to us but it's quite the
contrary," Hathaway said.
North-south, or
meridional flows carry magnetic elements from sunspots to the sun's poles,
building up the polar magnetic fields until they eventually flip around the
time of the solar maximum, Hathaway explained. Scientists are noticing that the
strength of the polar fields when a new cycle begins influences the strength of
the cycle, he added. For example, weak polar fields observed in 2008 led to the
current weak cycle, while strong polar fields in 1986 spawned a strong Cycle
22.
The polar fields have
been slowly reversing at this maximum, Hathaway said, suggesting that they are
not going get much stronger during Cycle 24. This also sets the stage for an
even smaller maximum during Cycle 25, scientists believe.
"We're seeing
fields that suggest the next sun cycle will be even weaker than this one,"
Hathaway said.
A small Cycle 24 also
fits in with a 100-year pattern of building and waning solar cycles. Scientists
don't know exactly what causes this trend, but there were weak solar cycles in
the beginning of the 19th and 20th centuries.
Source: Yahoo news
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