Violent explosions in space

Astronomers simulate how white dwarf stars merge and become a supernova

Supernovae are spectacular events: Suddenly somewhere in the heavens a "new star" lights up and shines as bright as a whole galaxy consisting of billions of stars. The mechanisms behind these cosmic catastrophes are varied. Researchers at the Max-Planck-Institute for Astrophysics in Garching have now used computer simulations to confirm that some of these bright supernovae are due to the merger of two white dwarfs, compact remnants of extinguished stars. As supernovae are used by astronomers to measure cosmic distances and study the expansion history of our Universe, understanding their mechanism is one of the key challenges in astrophysics. (Nature, 7. January 2010)

Fig. 1: Snapshots of the merger of two equal size white dwarf stars from 36 seconds prior to the explosion until 10 seconds afterwards. The colour-coding indicates the density of material, which is increasing from blue to red. Please note the different scaling on the plots.
(Image: Max Planck Institute for Astrophysics)
linkPfeil.gifMovie: Computer simulation of two merging white dwarfs (MPEG1 Format)

Intermediate-mass stars such as our Sun end their lives as white dwarfs consisting of carbon and oxygen. The stellar fusion reactor in their centre is no longer active due to a lack of fuel. The stars have only the size of the Earth, but a high density. One teaspoon of matter would weigh about as much as a car on our planet.

In a binary system, two such exotic white dwarfs can form. As they orbit each other, they are emitting gravitational waves. The resulting energy loss shrinks the orbit, the stars approach each other and ultimately they merge. It has long been speculated that these events may produce Type Ia supernova explosions.

The supernova research group at the Max Planck Institute for Astrophysics has now performed computer simulations of two merging white dwarfs in unprecedented detail. In the case of equal masses of the two white dwarfs, the merger is particularly violent. Part of the material of one white dwarf crashes into the other and heats up the carbon/oxygen material such that a thermonuclear explosion triggers (see Figure). This disrupts the stars in a supernova explosion.

"With our detailed explosion simulations, we could predict observables that indeed closely match actual observations of Type Ia supernovae," explains Friedrich Röpke of the supernova team. Therefore it has been demonstrated that white dwarf mergers contribute to Type Ia supernovae, although this scenario probably cannot account for all these explosions.

"Supernovae are among the brightest observed cosmic explosions," explains Wolfgang Hillebrandt, director at the Max Planck Institute for Astrophysics and co-author of the Nature article. "How they form, however, remains largely unknown. With our simulations we have now shed light on at least part of the old riddle of the progenitors of Type Ia supernovae."

Original publication:

Rüdiger Pakmor, Markus Kromer, Friedrich K. Röpke, Stuart A.Sim, Ashley J. Ruiter, Wolfgang Hillebrandt, "Sub-luminous type Ia supernovae from the mergers of equal-mass white dwarfs with M~0.9 M_solar", Nature, 7. January 2010


Links:

Website of the linkPfeil.gifsupernova research group
Computer simulation of two merging white dwarfs ( linkPfeil.gifMPEG4 Format , linkPfeil.gifMPEG1 Format )


Contact:
Dr. Hannelore Hämmerle
Press Officer
Max Planck Institute for Astrophysics
and Max Planck Institute for extraterrestrial Physics
Phone: +49 89 30000-3980
E-Mail: hhaemmerlempa-garching.mpg.de

Prof. Wolfgang Hillebrandt
Max Planck Institute for Astrophysics
Phone: +49 89 30000-2200
E-mail: whillebrandtmpa-garching.mpg.de

Dr. Friedrich K. Röpke
Max Planck Institute for Astrophysics
Phone: +49 89 30000-2212
E-mail: froepkempa-garching.mpg.de

Rüdiger Pakmor
Max Planck Institute for Astrophysics
Phone: +49 89 30000-2271
E-mail: rpakmormpa-garching.mpg.de

Acknowledgement:

We thank Elena Erastova and Markus Rampp (Max-Planck-Rechenzentrum Garching) for the movie. The use of the Splotch visualization package by K. Dolag, M. Reinecke, C. Gheller and S. Imboden is acknowledged.