Images by Date
Images by Category
Solar System
Stars
White Dwarfs
Supernovas
Neutron Stars
Black Holes
Milky Way Galaxy
Normal Galaxies
Quasars
Galaxy Clusters
Cosmology/Deep Field
Miscellaneous
Images by Interest
Space Scoop for Kids
Multiwavelength
Sky Map
Constellations
3D Wall
Photo Blog
Top Rated Images
Image Handouts
Desktops
High Res Prints
Fits Files
Image Tutorials
Photo Album Tutorial
False Color
Cosmic Distance
Look-Back Time
Scale & Distance
Angular Measurement
Images & Processing
AVM/Metadata
Getting Hard Copies
Image Use Policy
Web Shortcuts
Chandra Blog
RSS Feed
Chandra Mobile
Chronicle
Email Newsletter
News & Noteworthy
Image Use Policy
Questions & Answers
Glossary of Terms
Download Guide
Get Adobe Reader
More Information
Normal Galaxies & Starburst Galaxies
Related Podcasts
Tour of NGC 2207
Tour of NGC 2207 (2014-12-16)
Download Image

More Information

More Images
X-ray/Optical Composite of NGC 4555
(Credit:X-ray: NASA/CXC/E.O'Sullivan et al; Optical: Palomar DSS.)

Animation & Video


Related Images
Abell 2029
Abell 2029
(18 May 04)
NGC 720
NGC 720
(22 Oct 02)
NGC 4555:
Chandra's Find of Lonely Halo Raises Questions About Dark Matter


NGC 4555
Credit: X-ray: NASA/CXC/E.O'Sullivan et al; Optical: Palomar DSS

The Chandra image of NGC 4555 revealed that this large, isolated, elliptical galaxy is embedded in a cloud of 10-million-degree Celsius gas (left). The hot gas cloud has a diameter of about 400,000 light years, roughly twice that of the visible galaxy (right).

Astronomers have concluded that the combined gravity of the stars in the galaxy is far too low to hold the hot gas cloud to the galaxy - an enormous envelope, or halo, of dark matter is needed. The total mass of the required dark matter halo is about ten times the combined mass of the stars in the galaxy, and 300 times the mass of the hot gas cloud.

A growing body of evidence indicates that dark matter - which interacts with itself and normal matter only through gravity - is the dominant form of matter in the universe. According to the popular "cold dark matter" theory, dark matter consists of mysterious particles left over from the dense early universe that were moving slowly when galaxies and galaxy clusters began to form.

Most large, elliptical galaxies are found in groups and clusters of galaxies where they can gain or lose dark matter through collisions with other galaxies, so it is difficult to determine how much dark matter they originally possessed. The Chandra observation of NGC 4555 confirms that an isolated, elliptical galaxy can possess a dark matter halo of its own.

Fast Facts for NGC 4555:
Credit  X-ray: NASA/CXC/E.O'Sullivan et al; Optical: Palomar DSS
Scale  Image is 8 x 6.5 arcmin across.
Category  Normal Galaxies & Starburst Galaxies
Coordinates (J2000)  RA 12h 35m 41.20s | Dec +26° 31' 23.20"
Constellation  Coma Berenices
Observation Dates  February 4, 2003
Observation Time  8 hours
Obs. IDs  2884
Color Code  Intensity
Instrument  ACIS
References E. O'Sullivan, November 1, 2004, Monthly Notices of Royal Astronomical Society, and astro-ph 0407552
Distance Estimate  300 million light years
Release Date  October 26, 2004