[HCDX] The Weakest Solar Cycle in 100 Years

["Zacharias Liangas " <zliagas@xxxxxxxxxxxxxxx>]

The Weakest Solar Cycle in 100 Years
Scientists are struggling to explain the Sun´s bizarre recent behavior. Is it a fluke, or a sign of 
a deeper trend?
http://www.skyandtelescope.com/news/The-Weakest-Solar-Cycle-in-100-Years-
216752671.html
Sunspot cycle	
The Sun is currently at the peak of Cycle 24, the weakest cycle in 100 years.
D. Hathaway / NASA / MSFC
The Sun is acting weird. It typically puts on a pageant of magnetic activity every 11 years for 
aurora watchers and sungazers alike, but this time it overslept. When it finally woke up (a 
year late), it gave the weakest performance in 100 years.

What´s even weirder is that scientists, who aren´t usually shy about tossing hypotheses 
about, are at a loss for a good explanation. Three scientists, David Hathaway (NASA / 
Marshall Space Flight Center), Giuliana de Toma (High Altitude Observatory), and Matthew 
Penn (National Solar Observatory) presented possible explanations at this month´s meeting 
of the American Astronomical Society´s Solar Physics Division, but their results sparked a 
lively debate rather than a scientific consensus.

A Weak and Weird Cycle

Sun's magnetic field	
The Sun rotates faster at its equator, which stretches the magnetic field lines around the 
solar surface.
© Addison Wesley
A well-behaved Sun flips its north and south magnetic poles every 11 years. A cycle starts 
when the field is weak and dipolar-basically, a giant bar magnet. But the Sun´s rotation is 
faster at its equator than at its poles, and this difference soon stretches the field lines like 
distended rubber bands around the solar surface. Frenetic activity ensues, with magnetic 
tangles producing sunspots, prominences, and sometimes flares and plasma explosions. All 
of that dies down when the Sun-wide magnetic field lines finally snap into simpler 
configurations, re-establishing the dipole field and beginning the next cycle.

The Sun has been doing all of that, just to a lesser degree. "Not only is this the smallest cycle 
we´ve seen in the space age, it´s the smallest cycle in 100 years," says Hathaway, who took 
part in the Solar Cycle 24 Prediction Panel back in 2007.

Sun's asymmetric poles	
The current cycle isn't just weak. Starting in 2006, the Sun's poles became asymmetric, with 
the south pole lagging behind the north for the past 7 years. Asymmetric poles are common 
enough, but they usually synchronize within a year or so.
G. de Toma / USAF / NOAO
The panel members were split at the time on whether the next solar activity cycle would be 
strong or weak, but their middle-of-the-road estimate anticipated 90 sunspots as a peak 
value near August 2012. Instead, the peak sunspot number seems to be less than 70, and 
the maximum arrived later than expected. Cycle 24 should have peaked in 2012, 11 years 
after its last minimum in 2001, but the Sun overslept by a full year, waking up in 2013 
instead.

And its waking has been asymmetric: the north pole has led the cycle since 2006, with the 
south pole lagging behind. "It´s not uncommon to see hemispheres going out of phase . . . 
Usually this [asymmetry] lasts a year or so and then the hemispheres synchronize," de Toma 
explains. "We don´t know why this is lasting for so long."

Explaining Weirdness

Sun cycle history	
Cycle 24 is the weakest cycle in 100 years. This might be part of a centennial tapering of 
magnetic activity known as the Gleissberg cycle.
D. Hathaway / NASA / MSFC
It´s possible that, weak and weird as it is, Cycle 24 is still part of the Sun´s normal variation, 
even if it´s one of the weakest cycles yet recorded.

In fact, both Hathaway and de Toma think the 11-year cycle might be part of a larger one. 
Historical records show weak cycles at the turn of the 19th and 20th centuries, so it could be 
that the solar cycle tapers every 100 years or so in what´s known as the Gleissberg Cycle. It´s 
not easy to establish the existence of a cycle that turns over on such a long timescale, and 
even Hathaway admitted, "Certainly I don´t understand how it works."

Doug Biesecker (NOAA), chair of the most recent prediction panel, says, "I remain highly 
skeptical . . . [Even] if you believe there is a 100-year cycle, then that still doesn't tell us why. 
Just that it is."

Penn offered another, more catastrophic option: the sunspot cycle might die altogether. His 
team uses sunspot spectra to measure their magnetic fields, and his data show a clear trend: 
the magnetic field strength in sunspots is waning.

Sunspots' magnetic field
Penn's research shows that sunspots' magnetic field strength is declining over time. 
Sunspots can only form if the magnetic field is greater than around 1,500 Gauss, so if the 
trend continues, we could be headed for a time where no spots appear on the Sun's surface.
M. Penn
"If this trend continues, there will be almost no spots in Cycle 25, and we might be going into 
another Maunder Minimum," Penn states. The first Maunder Minimum occurred during the 
second half of the 17th century. Almost no spots were seen on the Sun during this time, 
which coincided with Europe´s Little Ice Age.

But Penn acknowledges that magnetic field measurements from other studies don´t always 
see the same trend he sees. Some observations show that sunspots´ magnetic field strength 
varies with the solar cycle, and others (including de Toma´s) show that sunspots´ magnetic 
fields aren´t changing with time. De Toma was even able to reproduce Penn´s results by 
excluding small sunspots, suggesting Penn´s trend might result from the way his team 
selects the sunspots they measure.

Another word of caution came from Hathaway, who notes that the Maunder Minimum might 
have been a catastrophic event rather than a gradual trend. "Many of my colleagues are 
poring over historical records to find out . . . what did lead up to the Maunder Minimum?" he 
says. "New observations suggestion that the cycle before the Maunder Minimum wasn´t 
particularly small."

Regardless of what´s causing the Sun´s strange behavior, Hathaway and Penn, who are both 
in the solar prediction business, anticipate that Cycle 25, expected to peak in 2024, will be 
the weakest yet.

Penn´s prediction is based on the weakening magnetic field he sees within sunspots; 
Hathaway´s are instead based on measurements of the Sun´s polar field and the meridional 
flow, the flow of magnetic flux from the Sun´s equator to the poles. A stronger flow would help 
strengthen weak fields, but meridional flows have been completely absent in Cycle 24 so far. 
We might have a long wait ahead of us to see if and when the Sun recovers.

....
http://www.delicious.com/gr_greek1/@zach (all mypages !!)
........
Zacharias Liangas , Thessaloniki Greece 
zliangas@xxxxxxxxx
Standard rig : ICOM R75 / 2x16 V / m@h40 heads Sennheiser 
Pesawat penerima: ICOM R75 , Lowe HF150 , various  degen tecsun models
Antenna: 16m hor, 2x16 m V invert, 
Loops :SW mag loop 1 m2 for  MW , AN200 MW loop 
..
Please read and distribute this 15 year research article http://tinyurl.com/5vzg7e 
Please read my article on SINPO at http://tinyurl.com/yt7qjd


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