Images by Date
Images by Category
Solar System
White Dwarfs
Neutron Stars
Black Holes
Milky Way Galaxy
Normal Galaxies
Galaxy Clusters
Cosmology/Deep Field
Images by Interest
Space Scoop for Kids
Sky Map
Photo Blog
Top Rated Images
Image Handouts
Fits Files
Image Tutorials
Photo Album Tutorial
False Color
Cosmic Distance
Look-Back Time
Scale & Distance
Angular Measurement
Images & Processing
Image Use Policy
Web Shortcuts
Chandra Blog
RSS Feed
Email Newsletter
News & Noteworthy
Image Use Policy
Questions & Answers
Glossary of Terms
Download Guide
Get Adobe Reader
More Information
Black Holes
X-ray Astronomy Field Guide
Black Holes
Questions and Answers
Black Holes
Chandra Images
Black Holes
Related Podcasts
Tour: NASA's Chandra Identifies an Underachieving Black Hole
Download Image

More Information

More Images
X-ray Image of SS 433
(Credit: NASA/CXC/U.Amsterdam/
S.Migliari et al.)

More Releases
SS 433
SS 433
(17 Jan 24)
SS 433
SS 433
(05 Jan 04)

Related Images
XTE J1550-564
XTE J1550-564
(03 Oct 02)
SS 433:
Chandra Reveals Pileup on Cosmic Speedway

SS 433
Credit: NASA/CXC/U.Amsterdam/S.Migliari et al.

The most recent Chandra image of SS 433 shows two high speed lobes of 50 million degree gas 5 trillion kilometers apart on opposite sides of a binary black hole system. As shown in the illustration (lower right), the binary system, which has a diameter several million times smaller than the distance between the lobes, consists of a massive star and a black hole with a disk of hot matter. Material is ejected from this disk in narrow jets that slowly wobble or precess around a circle (represented by blue circular arrow), from the sketched location of the jet at one extreme to the dotted white line at another.

The detection of the hot gas lobes so far away from the central black hole came as a surprise since earlier observations by Chandra and the Hubble Space Telescope had indicated that gas was cooling as it expanded away from the vicinity of the black hole in narrow jets. This led scientists to predict that no hot gas would be found further than a few million kilometers from the black hole.

This observation implies that the gas in the jets has been reheated, most likely by collisions between blobs of gas. Long-term optical monitoring observations have shown that matter is ejected every few minutes from the vicinity of the black hole in bullet-like gaseous blobs. The blobs apparently travel outward at about a quarter of the speed of light for several months without colliding until a faster blob rear-ends a slower one, precipitating a pileup that reheats the gas.

SS 433 is similar to the XTE J1550-564 binary system, in that they both involve black holes that are producing high speed jets of gas. However, there are significant differences. The X-ray emitting lobes in XTE J1550 are observed to be much further from the black hole than those in SS 433, and the X-rays from the XTE J1550 lobes appear to be produced by a magnetized cloud of highly energetic electrons, not clouds of hot gas as in SS 433. These differences might be due to the mass of the companion stars, which are quite dissimilar. In XTE J1550, the companion star has a mass similar to that of the Sun, whereas in SS 433, the companion star's mass is estimated to be almost 20 times that of the Sun. Perhaps the rapid rate of evaporation of matter from the massive star could affect the behavior of the jets in SS 433.

Fast Facts for SS 433:
Credit  NASA/CXC/U.Amsterdam/S.Migliari et al.
Scale  Image is 6.5 arcsec on a side.
Category  Black Holes
Coordinates (J2000)  RA 19h 11m 49.5s | Dec +04° 58´ 58"
Constellation  Aquila
Observation Dates  December 10, 2001
Observation Time  3 hours
Obs. IDs  2556
Color Code  Intensity
Instrument  ACIS
Distance Estimate  About 16,000 light years
Release Date  December 11, 2002