By Definition
High Definition
Standard Definition
By Length
Full (4-12 min)
Short (1-4 min)
By Date
2014 | 2013 | 2012 | 2011 | 2010
2009 | 2008 | 2007 | 2006
By Category
Solar System
Stars
White Dwarfs
Supernovas
Neutron Stars
Black Holes
Milky Way Galaxy
Normal Galaxies
Quasars
Groups of Galaxies
Cosmology/Deep Field
Miscellaneous
HTE
STOP
Space Scoop for Kids!
Subscribe
How To
Apple iTunes
RSS Reader
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
Recent Podcast
Space Scoop: Sweeping Supernovas
Space Scoop: Sweeping Supernovas
This space photograph shows a supernova remnant that is sweeping up a remarkable amount of material. (2014-04-16)


A Tour of SN 1979C

View/Listen
Narrator:
The youngest known black hole in our cosmic neighborhood may have been found using NASA's Chandra X-ray Observatory and other telescopes. Evidence for this very young black hole was found in a supernova called 1979C, seen to explode about 30 years ago. Dr. Dan Patnaude of the Harvard-Smithsonian Center for Astrophysics led this study and discusses it with us.

Dan Patnaude:
In looking at this supernova, we actually went all the way back to the Einstein era and looked at the data from 1980 all the way up until now. This included data from Einstein, ROSAT, Chandra (of course), SWIFT and XMM-Newton. Now Einstein didn't actually see the supernova, but ROSAT was able to observe it. When you compare the data from ROSAT moving forward, you actually see that this supernova is remarkably constant in its brightness. Now you don't expect this from a supernova. Generally, when a star explodes, it expands out into the circumstellar medium (or its surrounding material) and the X-ray emission and all of the other emission drops with time. So this is actually rather remarkable.

What we interpreted this as was the formation of a black hole in the center of the supernova. If this is the case then this would be evidence for the youngest and the nearest newly-formed black hole known to date.

What makes this exceptional is that we haven't actually ever directly observed a black hole inside of a supernova. It's thought that they are formed in some type of supernova, but we've never actually observed them to date, so to actually see this would be remarkable.

The other alternative besides it being possibly a black hole that's accreting supernova material is that instead of a black hole forming, a neutron star formed at the center of this supernova. What happens in this case is that the neutron star is spinning rapidly and what we're actually observing is a so-called wind nebula from this rapidly-spinning neutron star. It's called a pulsar wind nebula, and an example of this would be the Crab.

Interestingly enough, this particular supernova is only one of three at the time which was observed when it was going off. It was discovered in 1979 by a schoolteacher, Gus Johnson, who lived in Maryland, and he was observing M100, which is something he liked to do, and what he noticed was that there was this bright star, this new bright star in the field, and it turned out that this was Supernova 1979C.

Narrator:
Dan and his colleagues plan to make deeper observations of this remarkable object to test whether a very young black hole has been observed. For more information on this result and others, visit chandra.harvard.edu

Return to Podcasts