Credits: X-ray: NASA/SAO/GSFC/M.
Corcoran et al; HST: NASA/ESA/STScI; Image Processing: NASA/CXC/SAO/L.
Frattare, J. Major, N. Wolk)
A new movie made from over two
decades of data from NASA’s Chandra X-ray Observatory shows a famous star system
changing with time, as described in our latest press release. Eta Carinae contains two
massive stars (one is about 90 times
the mass of the Sun and the other is
believed to be about 30 times the Sun’s mass).
In the middle of the 19th century,
skywatchers observed as Eta Carinae experienced a huge explosion that was
dubbed the “Great Eruption.” During this event, Eta Carinae ejected between 10
and 45 times the mass of the Sun. This material became a dense pair of
spherical clouds of gas, now called the Homunculus nebula, on opposite sides of
the two stars. The Homunculus is clearly seen in a composite image of the Chandra data with
optical light from the Hubble Space Telescope (blue, purple, and white).
A new time-lapse sequence
contains frames of Eta Carinae taken with
Chandra from 1999, 2003, 2009, 2014, and 2020. Astronomers used the Chandra
observations along with data from ESA’s XMM-Newton to watch as the stellar
eruption from about 180 years ago continues to expand into space at speeds up
to 4.5 million miles per hour. The two massive stars produce the blue,
relatively high energy X-ray source in the center of the
ring. They are too close to each other to be seen individually.
A bright ring of X-rays (orange)
around the Homunculus nebula was discovered about 50 years ago and studied in
previous Chandra work. The new movie of Chandra, plus a deep, summed image
generated by adding the data together, reveal important hints about Eta
Carinae’s volatile history. This includes the rapid expansion of the ring, and
a previously-unknown faint shell of X-rays outside it.
This faint X-ray shell is
highlighted in an additional graphic showing the summed image. The image on the
left emphasizes the bright X-ray ring, and the image on the right shows the
same data but emphasizing the faintest X-rays. The shell is located in between
the two contour levels, as labeled.
Credits: NASA/SAO/GSFC/M. Corcoran
et al.
Because the newly discovered outer
X-ray shell has a similar shape and orientation to the Homunculus nebula,
researchers concluded both structures have a common origin. The idea is that
material was blasted away from Eta Carinae well before the 1843 Great Eruption
— sometime between 1200 and 1800, based on the motion of clumps of gas
previously seen in Hubble Space Telescope data. Later this slower material was
lit up in X-rays when the fast blast wave from the Great Eruption tore through
space, colliding with and heating the material to millions of degrees to create
the bright X-ray ring. The blast wave has now traveled beyond the bright ring.
A paper describing these results
appeared in The Astrophysical Journal and is available at https://iopscience.iop.org/article/10.3847/1538-4357/ac8f27
The authors of the paper are
Michael Corcoran (NASA’s Goddard Space Flight Center), Kenji Hamaguchi (GSFC),
Nathan Smith (University of Arizona), Ian Stevens (University of Birmingham,
UK), Anthony Moffat (University of Montreal), Noel Richardson (Embry-Riddle
Aeronautical University), Gerd Weigelt (Max Planck Institute for Radio
Astronomy), David Espinoza-Galeas (The Catholic University of America), Augusto
Damineli (University of Sao Paolo, Brazil), and Christopher Russell (Catholic
University).
NASA's Marshall Space Flight Center
manages the Chandra program. The Smithsonian Astrophysical Observatory's
Chandra X-ray Center controls science operations from Cambridge, Massachusetts,
and flight operations from Burlington, Massachusetts.
Read more from NASA's Chandra
X-ray Observatory.
For more Chandra images, multimedia and related materials, visit: http://www.nasa.gov/chandra
Source: Chandra Rewinds Story of Great Eruption of the 1840s | NASA
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