This is a wow phenomenon that is
beginning to get studied. What is not
too clear is the level of effective energy release in the near space
environment. One does not get the impression
of severe shock waves been formed even if the flows are super sonic.
Dedicating a craft to this phenomenon
and to related structures is a mission and is pure science for the moment. We are barely coming up to the point of doing
it for Earth.
The interesting question is
discovering the near surface effects on Venus.
Beyond that the lack of a
magnetic field remains unremarked. I
have posted that Venus conforms to a recently ejected planet from Jupiter as
posited famously by other researchers without understanding of the science. Two key features support this conjecture. The first is that the surface rock remains at
over 600 degrees. Millions of years of
cooling has simply not occurred. The
second is that internal differentiation has been limited with the result that
the magnetic field has yet to form. In
short, Venus is a proto planet that has not yet been completed.
This completion will entail
bombardment with comets sufficient to deliver ample carbon, and water to knock
the heat out of the surface rocks and to allow the cooling of the
atmosphere. At the moment it remains for
natural cooling to continue and this is posited to also be countered by the
greenhouse effect at levels to prevent much cooling at all.
Surprising Explosions on Venus Sparked by Space Weather
SPACE.com Staff
Date: 06 March 2012 Time: 07:00 AM ET
When
discontinuities in the solar wind remain in contact with a planet's bow shock,
they can collect a pool of hot particles that becomes a hot flow anomaly (HFA).
An HFA on Venus most likely acts like a vacuum, pulling up parts of the
planet’s atmosphere.
CREDIT: NASA/Collinson
Strange, gigantic explosions fueled by solar energy detonate just above
the surface of Venus, a new study finds.
The huge eruptions, known as hot flow anomalies (HFAs), have been seen
before near Earth, Saturn and possibly Mars. But the new observation is the
first unambiguous confirmation of the phenomenon on Venus, researchers said. It
also shows that HFAs there are far different than what happens near our planet,
which has a strong magnetic field, they added.
"At Venus,
since there's no protective magnetic field, the explosion happens right above
the surface of the planet," study lead author Glyn Collinson, of
NASA’s Goddard Space Flight Center in Greenbelt, Md., said in a statement.
HFAs are caused by discontinuities in the solar
wind, the million-mph flow of charged particles that streams from the sun.
Sometimes these discontinuities — areas where the wind's magnetic fields change
direction sharply and abruptly — align with the wind's flow. In this case, they
remain in contact with the bow shock, the place where the solar wind slows down
quickly and diverts around a planet or other large body.
If such a discontinuity travels slowly
across the bow shock, it traps lots of solar particles, collecting pools of
super-hot plasma that can expand to be as big as Earth
"These plasma particles are trapped in place," said study
co-author David Sibeck, also of NASA Goddard. "They make a big puddle that
gets bigger and bigger, sending out its own shock waves. Everything downstream
from that bubble is going to be different than what's upstream."
These eruptions of hot plasma are dramatic events that can compress
Earth's entire magnetosphere, the protective magnetic bubble surrounding our
planet. Such explosions also cause solar particles to flood into Earth's
atmosphere near the poles along the planet's magnetic field lines, sometimes
generating intense displays of the northern
and southern lights.
"Hot flow anomalies release so much energy that the solar wind
is deflected, and can even move back toward the sun," Sibeck said.
"That's a lot of energy when you consider that the solar wind is
supersonic — traveling faster
than the speed of sound — and the HFA is strong enough to make it turn
around."
Taking the search to Venus
NASA's Messenger spacecraft detected what may have been a Venusian HFA
in 2009, while on its way to study the planet Mercury. Collinson and his
colleagues wanted to know for sure if Earth's hellishly hot "sister
planet" hosts HFAs, so they studied several days' worth of data gathered
by the European Space Agency's Venus Express probe.
"That may not sound like much," Collinson said. "But a
day on Venus is 243 Earth days."
The researchers determined that Venus Express flew through an HFA on
March 22, 2008, showing conclusively that the phenomenon exists at Venus. But
\HFAs likely cause explosions much closer to the surface of
Venus than the Earth variety, because Venus lacks a magnetic field.
"At Earth, HFAs have a big effect, but don't necessarily rule the
roost," Collinson said. "But at Venus, since the HFA happens right up
next to the planet, it is going to have a more dramatic effect on the
system."
While the researchers think Venusian HFAs probably push part of the
planet's atmosphere out into space, they'd need a dedicated spacecraft to
really nail down the phenomenon's full effects. But the study does suggest that
HFAs may well be common on planets throughout our solar
system — and perhaps in other solar systems as well, they said.
Collinson and his colleagues published the study online in the Journal
of Geophysical Research on Feb. 29.
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