Solar flares energy : no apocalypse

Solar flares energy : no apocalypse
Extrait du Observatoire de Paris centre de recherche et enseignement en astronomie et
astrophysique relevant du Ministère de l'Enseignement supérieur et de la Recherche.
https://www.obspm.fr/solar-flares-energy-no-apocalypse.html
Solar flares energy : no
apocalypse
Date de mise en ligne : jeudi 20 décembre 2012
Observatoire de Paris centre de recherche et enseignement en astronomie et
astrophysique relevant du Ministère de l'Enseignement supérieur et de la
Recherche.
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Solar flares energy : no apocalypse
Six times the energy of the most violent anger ever heard from the Sun... This is 10 million
times the electricity consumed during a year in the world... and 3 billion times yield of the
most destructive atomic bomb on Earth... These numbers give the maximum possible energy
a solar flare can release. As our star approaches peak of it's eleven-year activity cycle,
foreseen in 2013 : five researchers from Observatoire de Paris and CNRS and one from
Lockheed Martin performed this estimation. Scientists used their expertise in modelling and
observation of solar eruptions. The most terrific imaginable flare has not been seen yet. But,
on no account, Sun will soon lead to "apocalypse" or "end of the world" for Earthlings.
Solar flares strongly affect not only the Sun's atmosphere, but also Earth's environment. Thus, quantifying the
maximum possible energy of present-day eruptions is a key question for astrophysics and for its applied branch of
space weather. The largest solar flares observed over the past few decades have reached energies of a few times 10
25 Joules, possibly up to 1026. But super flares in active Sun-like stars reach up to about 1029 Joules. In the
absence of direct observations, up to now, of solar flares within this range, complementary methods of investigation
are needed to assess the probability of solar flares beyond those in the observational record.
A team composed of five researchers at Observatoire de Paris and a member of Lockheed Martin Advanced
Technology Center has been able to relate the energy of solar flares to the area of the sunspot group from which
they originate. To do so, they combined the most realistic numerical magneto-hydrodynamic simulation for solar
eruptions, with more than one century of historical recordings of sunspots and active regions coming from daily
observations made at Meudon site of Observatoire de Paris.
Strongest events
By considering the largest sunspot group ever reported (from April 1947), the team has predicted the value of the
highest possible energy of solar flares. The result, thus obtained from observational and theoretical analyses, is
about 6 x 1026 Joules. This is 600 millions of millions of millions of millions of Joules. Even though the number is
impressive, it corresponds to the total radiative energy emitted by the Sun during two seconds only. This upper limit
on the energy of solar flares is still ten times higher than the energy measured for the October 28, 2003 X17 class
flare, which was a major space weather event. And it is six times higher than the one estimated for the November 4,
2003 X28-40 flare, which saturated every available sensors aboard space telescopes. This flare remains, to date, the
strongest one ever observed with modern instrumentation. And it is presumably comparable to the Carrington flare
from 1859.
One question not addressed in this work is whether or not the current solar convective dynamo can produce gigantic
sunspot groups, as required to produce strong super flares according to the model. This seems unlikely, recall the
astrophysicists authors of the study. In fact, such giant sunspot groups have not been recorded in four centuries of
direct scientific observations and in millennia of sunrises and sunsets viewable by anyone around the world. It can
thus reasonably be assumed that, during billion years around now, while on the main sequence of its life, the Sun
never has produced - and never will produce - a flare more energetic than this maximum.
"All solar flares which have been reported thus far were below the upper limit", says Guillaume Aulanier, astronomer
at Observatoire de Paris, "nevertheless during the last 160 years, we have experienced several episodes of
comparable magnitude. Each of these strong flares had significant consequences on Earth's space environment and
on our technologically evolved world. Predicting future similar events is therefore an important challenge. But
definitively, there will be no Big One causing the end of world."
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Solar flares energy : no apocalypse
These results will appear online on December 20, 2012, and in January 2013 issue of Astronomy & Astrophysics.
Collaboration
This study was conducted by Guillaume Aulanier, Pascal Démoulin, Miho Janvier, Etienne Pariat, Brigitte Schmieder
at Observatoire de Paris and Carolus Schrijver at Lockheed Martin (Palo Alto, California). Isabelle Bualé, solar
observer at Observatoire de Paris, digitalized the historical Meudon spectro-heliograph observations. They are
available online in the BASS2000 database : bass2000.obspm.fr. The work of Miho Janvier was financed by the AXA
research fund. The solar flare model was calculated on the cluster of the Division Informatique de l'Observatoire de
Paris.
References
The standard flare model in three dimensions, II. Upper limit on solar flare energy, to appear in the January 2013
issue of Astronomy & Astrophysics.
http://dx.doi.org/10.1051/0004-6361/201220406
The standard flare model in three dimensions, I. Strong-to-weak shear transition in post-flare loops, published in the
July 2012 issue of Astronomy & Astrophysics.http://dx.doi.org/10.1051/0004-6361/201219311
Estimating the frequency of extremely energetic solar events, based on solar, stellar, lunar, and terrestrial records,
Carolus Schrijver and collaborators, published in the August 2012 issue of the Journal of Geophysical Research.
http://dx.doi.org/10.1029/2012JA017706
Images, videos, and animation
The X17 class solar flare of October 28, 2003, observed with the Extreme Ultraviolet Imaging Telescope onboard
the European Solar and Heliospheric Observatory SOHO spacecraft. (ESA / Nasa)
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Solar flares energy : no apocalypse
The X7 solar flare of August 9, 2011, observed at 13.1 nm with the Atmospheric Imaging Assembly onboard the
Solar Dynamics Observatory SDO spacecraft. It is the most energetic flare observed since SDO was launched in
February 2010. (Nasa)
Numerical simulation for solar eruptions. The grey boundary represents the Sun's surface, and the coloured
curves show magnetic field lines spreading out in the corona. The simulation was performed with the OHM code, in
the resistive MHD framework, using more than 14 million points distributed in a non-uniform mesh. (Observatoire de
Paris / LESIA)
Click here to see the animation
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Solar flares energy : no apocalypse
Selection of three large sunspot groups, observed by the Meudon spectro-heliograph. The one from 1947 is
the largest sunspot group than can be found in historical records. The one from 2003 produced historically strong X
class flares, and the one from 2012 recently produced a more typical X class flare. (Observatoire de Paris / LESIA)
Science contacts
Observatoire de Paris
Guillaume Aulanier
Astronomer
LESIA
+33 (0) 1 45 07 71 46
Miho Janvier
Post-doctoral researcher
LESIA
+33 (0) 1 45 76 59
miho.janvier obspm.fr
Press relations
Observatoire de Paris
Frédérique Auffret
+33 (0) 1 40 51 20 29
+33 (0) 6 22 70 16 44
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