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For release: 06/04/2002
 Photo release #: 02-144

Black holes in distant galaxies point to wild youth, Chandra discovers

Photo description: Chandra image of the elliptical galaxy NGC 4697 Large 2246 x 2092 (300)
Medium 720 x 671 (72)
Thumbnail 100 x 100 (72)

Chandra image of the elliptical galaxy NGC 4697

Chandra's image of the elliptical galaxy NGC 4697 reveals diffuse hot gas dotted with many point-like sources. As in the elliptical galaxies, NGC 4649 and NGC 1553, the point-like sources are due to black holes and neutron stars in binary star systems. Material pulled off a normal star is heated and emits X-radiation as it falls toward its black hole or neutron star companion.

Black holes and neutron stars are the end state of the brightest and most massive stars. Chandra's detection of numerous neutron stars and black holes in this and other elliptical galaxies shows that these galaxies once contained many very bright, massive stars, in marked contrast to the present population of low-mass faint stars that now dominate elliptical galaxies.

An unusually large number of the binary star X-ray sources in NGC 4697 are in "globular star clusters," round balls of stars in the galaxy that contain about one million stars in a volume where typically only one would be found. This suggests that the extraordinarily dense environment of globular clusters may be a good place for black holes or neutron stars to capture a companion star.

The origin of the hot gas cloud enveloping the galaxy is not known. One possibility is that the gas lost by evaporation from normal stars- so-called stellar winds - is heated by these winds and by supernova explosions.

NASA's Marshall Space Flight Center in Huntsville, Ala., manages the Chandra program.

(NASA/CXC/UVa/C.Sarazin et al.)

 

Photo description: Chandra X-ray Observatory image of the NGC 1553 Galaxy Large 2233 x 2050 (300)
Medium 720 x 661 (72)
Thumbnail 100 x 100 (72)

Chandra X-ray Observatory image of the NGC 1553 Galaxy

Chandra's image of the lenticular -- an elliptical-type galaxy with a disk of old stars -- galaxy NGC 1553 reveals diffuse hot gas dotted with many point-like sources. As in the elliptical galaxies, NGC 4649 and NGC 4697, the point-like sources are due to black holes and neutron stars in binary star systems where material pulled off a normal star is heated and emits X-radiation as it falls toward its black hole or neutron star companion.

Black holes and neutron stars are the end state of the brightest and most massive stars. Chandra's detection of numerous neutron stars and black holes in this and other elliptical galaxies shows that these galaxies once contained many very bright, massive stars, in marked contrast to the present population of low-mass faint stars that now dominate elliptical galaxies.

The bright central source in NGC 1553 is probably due to a supermassive black hole in the nucleus of the galaxy. The nature of the spiral feature curling out from either side of this source is not known. It could be caused by shock waves from a pair of bubbles of high energy particles that were ejected from the vicinity of the supermassive black hole.

(NASA/CXC/UVa/E.Blanton et al.)

 

Photo description: Chandra X-ray Observatory image of the elliptical galaxy NGC 4649 Large 2258 x 2263 (300)
Medium 720 x 722 (72)
Thumbnail 100 x 100 (72)

Chandra X-ray Observatory image of the elliptical galaxy NGC 4649

Chandra's image of the elliptical galaxy NGC 4649 reveals a large, bright cloud of hot gas and 165 point-like sources. As in the elliptical galaxies, NGC 4697 and NGC 1553, most of the point-like sources are due to black holes and neutron stars in binary star systems.

Black holes and neutron stars are the end state of the brightest and most massive stars. Chandra's detection of numerous neutron stars and black holes in this and other elliptical galaxies shows that these galaxies once contained many very bright, massive stars, in marked contrast to the present population of low-mass faint stars that now dominate elliptical galaxies.

Many of the X-ray binaries are in "globular star clusters," round balls of stars that contain about one million stars in a volume where typically only one would be found. This suggests that the extraordinarily dense environment of globular clusters may be a good place for black holes or neutron stars to capture a companion star.

The hot gas cloud filling the galaxy has a temperature of about 10 million degrees Celsius. In the bright central region there appear to be bright fingers of X-ray emission which could be due to rising cells of hot gas.

(NASA/CXC/UVa/S.Randall et al.)

 

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