More Images of G1.9+0.3
1
Comparison of Chandra X-ray and VLA Radio Images
The most recent supernova in our Galaxy has been discovered by
determining the age of the supernova remnant known as G1.9+0.3. To determine the
age, astronomers tracked how quickly it is expanding, by comparing a radio
image from 1985 to a Chandra image taken in 2007. The expansion rate was
confirmed with another radio observation with the VLA in 2008. The
difference in size between these images gives clear evidence for
expansion, allowing the age of the remnant and the time since the original
supernova explosion (about 140 years) to be estimated.
(Credit: X-ray (NASA/CXC/NCSU/S.Reynolds et al.); Radio (NSF/NRAO/VLA/Cambridge/D.Green et al.))
2
VLA Radio Image of G1.9+0.3
This is a radio image, from the NRAO's Very Large Array (VLA), of G1.9+0.3,
a supernova remnant left behind after a supernova. Clear expansion between
this VLA image, obtained in 1985 and a Chandra image obtained in 2007
allowed the time since the explosion to be estimated. This was confirmed
with a new VLA image obtained in 2008.
(Credit: NSF/NRAO/VLA/Cambridge/D.Green et al.)
3
Location in Milky Way of Other Historic Supernovas
This artist's impression shows a view looking down on the Milky Way galaxy. The position of the Sun is shown, as are the approximate positions and names (shown in orange) of historical supernovas. These are stellar explosions that are thought to have occurred in the last 2,000 years and may have been seen by early astronomers. The estimated position of the recently discovered G1.9+0.3 is shown in black. Although the distance to this remnant is uncertain, the angle is accurately known. Note that G1.9+0.3 is the only object that is found in the bulge of the galaxy.
(Credit: NASA/CXC/M.Weiss)
4
Illustration of a Supernova near the Galactic Center
This artist's impression shows what the supernova explosion that resulted
in the formation of the supernova remnant G1.9+0.3 might have looked like.
The expanding debris from the supernova explosion is shown in white,
including some interaction with the surrounding gas (green). The crowded
environment near the center is shown by diffuse gas (red) and dust (brown)
as well as large numbers of stars with different masses and colors.
(Credit: NASA/CXC/M.Weiss)
5
Optical Image of Milky Way Galaxy
This is a beautiful optical image of the Milky Way galaxy, with the center
of the Galaxy in the middle and the position of G1.9+0.3 labeled. This is a
mosaic of 51 images that were taken and stitched together by Axel Mellinger,
an amateur astronomer and astrophotographer. (Used with permission)
(Credit: Axel Mellinger, University of Potsdam, Germany)
6
Infrared Panoramic image of the Galactic center
This panoramic image from the Two Micron All Sky Survey (2MASS),
covering about 3 degrees by about 2 degrees, shows the central region of the
Milky Way galaxy. The Galactic center is the bright red spot in the upper
right side of the image. The Chandra and VLA composite image of G1.9+0.3 is
shown in the lower left. The plane of the galaxy runs from the Galactic center
to approximately the lower left corner of the image.
(Credit: 2MASS/UMass/IPAC-Caltech/NASA/NSF/CfA/E.Bressert)
7
Chandra, VLA & 2MASS Composite image of G1.9+0.3
A composite image of X-ray (orange) and radio (blue) data from NASA's
Chandra X-ray Observatory and the Very Large Array shows the remains of the
supernova remnant G1.9+0.3. The original supernova explosion, the most
recent in the Milky Way, was not detected in optical light because it is
near the center of the Galaxy and obscured by gas and dust. The
yellow and white stars are from a 2MASS infrared image.
(Credit: X-ray (NASA/CXC/NCSU/S.Reynolds et al.); Radio (NSF/NRAO/VLA/Cambridge/D.Green et al.))
8
Chandra X-ray & VLA Radio Composite image of G1.9+0.3
This composite image of the supernova remnant G1.9+0.3 combines the Chandra X-ray Observatory image taken in 2007 (orange) with the Very Large Array radio image taken in 1985 (blue) and 2008 (yellow). The difference in size between the images gives clear evidence for expansion, allowing the age of the remnant and the time since the original supernova explosion (about 140 years) to be estimated.
(Credit: X-ray (NASA/CXC/NCSU/S.Reynolds et al.); Radio (NSF/NRAO/VLA/Cambridge/D.Green et al.))
Return to G1.9+0.3 (May 14, 2008)