Images by Date
Images by Category
Solar System
Stars
Exoplanets
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
4K JPG
Multiwavelength
Sky Map
Constellations
Photo Blog
Top Rated Images
Image Handouts
Desktops
Fits Files
Visual descriptions
Image Tutorials
Photo Album Tutorial
False Color
Cosmic Distance
Look-Back Time
Scale & Distance
Angular Measurement
Images & Processing
AVM/Metadata
Image Use Policy
Web Shortcuts
Chandra Blog
RSS Feed
Chronicle
Email Newsletter
News & Noteworthy
Image Use Policy
Questions & Answers
Glossary of Terms
Download Guide
Get Adobe Reader
J144547-5931 and J144701-5919: Hunting for the Milky Way's Heaviest Stars

  • Data from Chandra and Spitzer have been combined to search for some of the Milky Way's heaviest stars.

  • Dust and gas obscure much of the view from optical telescopes from the plane of our Galaxy.

  • X-rays can penetrate this veil and help astronomers study these giant stars.

Like looking for Easter eggs in a lawn of long grass, the hunt for the Milky Way's most massive stars takes persistence and sharp eyes. In their stellar search through our Galactic backyard, astronomers have used powerful telescopes sensitive to X-ray and infrared radiation to find evidence for a substantial population of X-ray emitting massive stars.

This image shows infrared data from NASA's Spitzer Space Telescope near the plane of the Milky Way galaxy. Both outlined boxes contain an artificially darkened view of the Spitzer data, to highlight a bright X-ray source (blue) detected at the center of each square with NASA's Chandra X-ray Observatory. Each X-ray source coincides with a strong infrared signal.

Analysis of the X-ray and infrared data, as well as optical and radio observations, reveals that these bright sources are, in fact, extremely massive stars. Two other massive stars have also been found near the plane of the Milky Way using similar methods. Deep observations from ESA's XMM-Newton also provided valuable information for these other two objects. All four of these stars are thought to be at least 25 times more massive than the Sun and lie between 7,500 and 18,000 light years from Earth. These stars are expected to last only a few million years and will end their lives with supernova explosions.

Finding these very massive stars is not easy. Dust and gas throughout the Milky Way obscures much of the view from optical telescopes near the plane of the galaxy. Infrared images suffer less obscuration but are extremely crowded with stars. However, these stellar behemoths shine brightly in X-ray light and easily stand out from their neighbors in Chandra images.

Why are these massive stars so bright in X-rays? Some massive stars have winds that blow material away from their surface at over 2 million miles per hour. If this high-speed material collides with the wind from a companion star, it is decelerated so suddenly that it acts like it has collided with a Solar System-sized brick wall. The shock waves resulting from this enormous collision generate temperatures up to 100 million degrees, and produce copious amounts of X-rays.

These Chandra observations followed a survey of the plane of our Galaxy by the Advanced Satellite for Cosmology and Astrophysics (ASCA), a previous X-ray mission. This survey detected about 160 X-ray sources, but only a third of them could be definitively identified due to the limited spatial resolution of ASCA. Because Chandra's ability to resolve sources is significantly greater, much more precise positions could be obtained. This has allowed scientists to identify counterparts to the X-ray sources in other wavelengths. There are many other unidentified Galactic X-ray sources with X-ray properties similar to these four sources, so a large population of massive stars may remain to be discovered with future Chandra observations.

These results were published in the February 1st issue of The Astrophysical Journal in a paper led by Gemma Anderson (University of Sydney). Other authors included Bryan Gaensler (University of Sydney), David Kaplan (University of Wisconsin, Milwaukee), Bettina Posselt, Patrick Slane and Stephen Murray (Harvard-Smithsonian Center for Astrophysics, or CfA), Jon Mauerhan (California Institute of Technology), Robert Benjamin (University of Wisconsin, Whitewater), Crystal Brogan (National Radio Astronomy Observatory), Deepto Chakrabarty (Massachusetts Institute of Technology), Jeremy Drake (CfA), Janet Drew (University of Hertfordshire), Jonathan Grindlay and Jaesub Hong (CfA), Joseph Lazio (Naval Research Laboratory), Julia Lee (CfA), Danny Steeghs (University of Warwick), and Marten van Kerkwijk (University of Toronto).

Fast Facts for J144547-5931:
Credit  X-ray: NASA/U. of Sydney/G.Anderson et al; IR: NASA/JPL-Caltech
Release Date  April 13, 2011
Scale  Image is across Wide Field: 33 by 25 arcmin (86 light years across); Inset: 6 by 6 arcmin (16 light years)
Category  Normal Stars & Star Clusters
Coordinates (J2000)  RA 14h 45m 43.673s | Dec -59° 32´ 05.25"
Constellation  Centaurus
Observation Dates  08/12/2007
Observation Time  24 min
Obs. IDs  8240
Instrument  ACIS
References Anderson, G, et al, ApJ 2011, in press
Color Code  Infrared (Red); X-ray (Blue)
IR
X-ray
Distance Estimate  9,000 light years
distance arrow
Fast Facts for J144701-5919:
Credit  X-ray: NASA/U. of Sydney/G.Anderson et al; IR: NASA/JPL-Caltech
Release Date  April 13, 2011
Scale  Image is across Wide Field: 33 by 25 arcmin (86 light years across); Inset: 6 by 6 arcmin (16 light years)
Category  Normal Stars & Star Clusters
Coordinates (J2000)  RA 14h 46m 53.583s | Dec -59° 19´ 38.31"
Constellation  Circinus
Observation Dates  01/13/2007
Observation Time  42 min
Obs. IDs  8233
Instrument  ACIS
References Anderson, G, et al, ApJ 2011, in press
Color Code  Infrared (Red); X-ray (Blue)
IR
X-ray
Distance Estimate  9,000 light years
distance arrow
Visitor Comments (10)

I need photos of milky way..

Posted by Alvaro Sanchez on Monday, 09.15.14 @ 22:00pm


Dear Frank,
Thanks for your question. These stars are too far away from the Earth for life to be affected, but they might put on an impressive light show depending on their distance and the level of absorption in the intervening gas.
P. Edmonds, CXC

Posted by P. Edmonds on Monday, 05.2.11 @ 14:10pm


How is the "weight" mass of a star found? and what is the most massive star ever found so far?

Marvin L. S.

Posted by Marvin L. S. on Tuesday, 04.26.11 @ 20:42pm


When one of these super massive stars goes super nova at the end of it's life would the earth be affected in anyway from the explosion.

Posted by Frank on Monday, 04.18.11 @ 14:00pm


This is lovely and amazing.
The Universe is the largest and we are a tiny folks, The Human

Thanks
David

Posted by David Ghosh on Monday, 04.18.11 @ 06:36am


Excellent. Very nice pictures and many details. Send us more. Thank you very much to the team of Chandra and Spitzer.

Posted by Charles Fardell on Sunday, 04.17.11 @ 06:13am


Chandra observatory Hunting for the Milky Way's Heaviest Stars is mark of big success, it gives definitely a way of right Goal.
Thanks. Regards to all of you.

Posted by Dhiraj on Sunday, 04.17.11 @ 02:05am


Excellent photos of the Milky Way's Stars of heavy deep of space. Congratulations.

Posted by Laerte Schmitt on Saturday, 04.16.11 @ 23:03pm


Very excellent photos and comments.

Posted by mansour saadat on Thursday, 04.14.11 @ 05:35am


Congratulations to my goddaughter, G. A., on leading such an eminent team and expanding our knowledge.

Posted by Liz P. Australia on Thursday, 04.14.11 @ 02:38am


Rate This Image

Rating: 3.8/5
(542 votes cast)
Download & Share

Desktops

1024x768 - 1 MB
1280x1024 - 1.6 MB
1680x1050 - 1.8 MB
More Information
Blog: J144547-5931
More Images
Chandra X-ray Image
of J144547-5931
Jpg, Tif
X-ray

More Images
Animation & Video
Images of J144547-5931 and J144701-5919
animation

More Animations
Related Images
Cepheus B
Cepheus B
(12 Aug 09)

Orion Nebula
Orion Nebula
(03 Oct 07)

Related Information
Related Podcast
Top Rated Images
Brightest Cluster Galaxies

Timelapses: Crab Nebula and Cassiopeia A

Data Sonification




FaceBookTwitterYouTubeFlickr