Credit & Copyright: Michael Owen,
John Blondin
(North Carolina State Univ.)
Explanation:
Don't be fooled by the familiar pattern.
The graceful spiral structure seen
in this computer visualization does not portray winding spiral arms in
a distant galaxy of stars.
Instead, the graphic shows spiral shock waves in a three dimensional
simulation of an
accretion disk -- material swirling onto a compact
central object that could represent a
white dwarf star,
neutron star,
or black hole.
Such accretion disks power bright
x-ray sources
within our own galaxy.
They form in binary star systems which consist of a donor star (not
shown above), supplying the accreting material, and a compact object
whose strong
gravity ultimately draws the material towards its surface.
For known
x-ray
binary systems the size of the accretion disk
itself might fall somewhere between the diameter of the Sun
(about 1,400,000 kilometers) and the diameter of the
Moon's orbit (800,000 kilometers).
One interesting result of the
virtual reality astrophysics
illustrated here is that the simulated
disk develops instabilities
which tend to smear out the pronounced spiral shocks.
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NASA Official: Jay Norris. Specific rights apply.
A service of: LHEA at NASA / GSFC
& Michigan Tech. U.
Based on Astronomy Picture
Of the Day
Publications with keywords: accretion disk - binary star - neutron star - black hole
Publications with words: accretion disk - binary star - neutron star - black hole
See also:
- APOD: 2024 November 24 Á Journey to the Center of the Galaxy
- APOD: 2024 October 1 Á Porphyrion: The Longest Known Black Hole Jets
- APOD: 2024 June 16 Á Animation: Black Hole Destroys Star
- Simulation: Two Black Holes Merge
- The Galaxy, the Jet, and a Famous Black Hole
- APOD: 2024 May 8 Á Visualization: A Black Hole Accretion Disk
- APOD: 2024 May 7 Á Black Hole Accreting with Jet