+ Play
Audio
|
+ Download Audio | +
Email to a friend | +
Join mailing list
March
28, 2008: Solar Cycle 23, how can we miss you if
you won't go away?
Barely
three months after forecasters announced the beginning of
new Solar Cycle 24, old Solar Cycle 23 has returned. (Actually,
it never left. Read on.)
"This
week, three big sunspots appeared and they are all old cycle
spots," says NASA solar physicist David Hathaway. "We
know this because of their magnetic polarity." On
March 28th the Solar and Heliospheric Observatory (SOHO) made
this magnetic map of the sun:
It
shows the north and south magnetic poles of the three sunspots.
All are oriented according to the patterns of Solar Cycle
23. Cycle 24 spots would be reversed.
What's
going on? Hathaway explains: "We have two solar cycles
in progress at the same time. Solar Cycle 24 has begun (the
first new-cycle spot appeared in January 2008), but Solar
Cycle 23 has not ended."
Strange
as it sounds, this is perfectly normal. Around the time of
solar minimum--i.e., now--old-cycle spots and new-cycle
spots frequently intermingle. Eventually Cycle 23 will fade
to zero, giving way in full to Solar Cycle 24, but not yet.
Meanwhile,
on March 25th, sunspot 989, the smallest of the three sunspots,
unleashed an M2-class solar flare. Flares are measured on
a "Richter scale" ranging from A-class (puny) to
X-class (powerful). M-class flares are of medium intensity.
This one hurled a coronal mass ejection or "CME"
into space (movie),
but the billion-ton cloud missed Earth.
While
the CME was still plowing through the sun's atmosphere, amateur
radio astronomer Thomas Ashcraft heard "a heaving sound"
coming from the loudspeaker of his 21 MHz shortwave receiver
in New Mexico: listen.
It was a Type II solar radio burst generated by shock waves
at the leading edge of the CME. A thousand miles away in Virginia,
David Thomas recorded the same emissions on a chart recorder
he connected to his 20 MHz ham rig: look.
"What a pleasant surprise," says Thomas.
Above:
Sunspot counts vs. year: 2008 is a low point in the solar
cycle. Smoothed curves are predictions of future activity.
[More]
We
could get more of this kind of activity in the next 7 to 10
days. It will take about that long for the sunspots to cross
the face of the sun. The sun's rotation is turning the spots
toward Earth, which means the next CME, if there is one, might
not miss. CME strikes do no physical harm to Earth but they
can cause Northern Lights, satellite glitches and, in extreme
cases, power outages.
The
real significance of these spots is what they say about the
solar cycle, says Hathaway. "Solar Cycle 24 has begun,
but we won't be through solar minimum until the number of
Cycle 24 spots rises above the declining number of Cycle 23
spots." Based on this latest spate of "old"
activity, he thinks the next Solar Max probably won't arrive
until 2012.
Stay
tuned to Science@NASA for solar cycle updates.
SEND
THIS STORY TO A FRIEND
Author: Dr.
Tony Phillips | Credit: Science@NASA
|