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Supernova remnant
W44 is the focus of this new image created by combining data from ESA’s
Herschel and XMM-Newton space observatories. W44 is the vast purple
sphere that dominates the left hand side of this image, and measures
about 100 light-years across. XMM-Newton data reveal that the remnant is
filled with X-ray emission from extremely hot gas.
Herschel’s three-colour infrared view comprises PACS 70 and 160 micron
and SPIRE 250 micron images. X-ray data from XMM-Newton’s EPIC
instrument for W44 only has been added in light and dark blue to
represent high- (2–8 keV) and low-energy (1.2–2 keV) X-ray emission,
respectively.
The field of view is about 1º across. North is towards the bottom left
of the image; east is to the top right. 
HI-RES JPEG (Size: 
HI-RES TIFF (Size: Credits: Herschel: Q. Nguyen Luong & F. Motte, HOBYS Key Program consortium, Herschel SPIRE/PACS/ESA consortia. XMM-Newton: ESA/XMM-Newton
W44, located around 10 000 light-years away within a forest of dense star-forming clouds in the constellation of Aquila, the Eagle, is one of the best examples of a supernova remnant interacting with its parent molecular cloud.
The product of a massive star that has already reached the end of its
life and expelled its outer layers in a dramatic explosion, all that
remains of the stellar behemoth is the spinning core of a neutron star,
or pulsar.
Identified as PSR B1853+01, the pulsar is the bright point to the top left in W44, coloured light blue in this image.
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Herschel’s
three-colour infrared view of supernova remnant W44 and surrounding
regions comprising PACS 70 and 160 micron and SPIRE 250 micron images. 
HI-RES JPEG (Size: Credits: Herschel: Q. Nguyen Luong & F. Motte, HOBYS Key Program consortium, Herschel SPIRE/PACS/ESA consortia
It is thought to be around 20 000 years old and as it rapidly rotates it sweeps out a wind of highly energetic particles and beams of light ranging from radio to X-ray energies.
The centre of the supernova remnant is also bright in X-rays, coming from the hot gas that fills the shell, at temperatures of several million degrees. Dense knots of high-energy emission reflect regions where heavier elements are more commonly found.
At the cooler edge of the cavity, gas is swept up as the supernova remnant propagates through space.
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HI-RES JPEG (Size: 174 kb) Supernova remnant W44 revealed by XMM-Newton at high (light blue) and low (dark blue) energy X-ray emission corresponding to energies of 2–8 keV and 1.2-2 keV, respectively. Knots of dense X-ray emission represent locations where the abundance of heavier elements is elevated. Pulsar PSR B1853+01 can be seen as the bright point source coloured light blue towards the top left of W44 in this image. The striping is a result of the image processing.
Credits: ESA/XMM-Newton
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HI-RES JPEG (Size: 446 kb) Annotated image of W44 and surrounds.
Credits: Herschel: Q. Nguyen Luong & F. Motte, HOBYS Key Program consortium, Herschel SPIRE/PACS/ESA consortia. XMM-Newton: ESA/XMM-Newton
Examples include the arrowhead-shaped star-formation region to the right of W44, which appears to point to another trio of intricate clouds further to the right and above.
More broadly, a number of compact objects scattered across the scene map the cold seeds of future stars that will eventually emerge from their dusty cocoons.
Finally, diffuse purple emission towards the bottom left of the image provides a glimpse of the Galactic plane.
Contact for further information ESA
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com
ayabaca@yahoo.com
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