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Comet Chury is much younger than previously thought

Date:
November 9, 2016
Source:
University of Bern
Summary:
Based on computer simulations, astrophysicists conclude that the comet Chury did not obtain its duck-like form during the formation of our solar system 4.5 billion years ago. Although it does contain primordial material, they are able to show that the comet in its present form is hardly more than a billion years old.
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Based on computer simulations, Astrophysicists at the University of Bern, Switzerland, conclude that the comet Chury did not obtain its duck-like form during the formation of our solar system 4.5 billion years ago. Although it does contain primordial material, they are able to show that the comet in its present form is hardly more than a billion years old.

Based on data from the Rosetta space probe, scientists have so far assumed that the comet 67P/Churyumov-Gerasimenko originated from the initial phase of our solar system. Its peculiar, duck-shaped structure would have resulted from a gentle collision of two objects about 4.5 billion years ago.

Based on new research, Martin Jutzi and Willy Benz from NCCR PlanetS and the Center for Space and Habitability (CSH) of the University of Bern, together with colleagues, have now come to a different conclusion. As a result of two studies published in the journal Astronomy & Astrophysics, Astrophysicist Martin Jutzi explains that "It is unlikely that a body like Chury has survived for such a long time without damage -- our computer simulations show this. "

If the assumptions of the present "standard" model of the origin of our solar system are correct, a quiet initial phase was followed by a period in which large bodies initiated higher velocities and more violent collisions. In a first study, the scientists calculated how much energy would be needed to destroy a structure like Chury in a collision. As it turned out, Chury has a weak point; the connection between the two parts -- the neck between the head and the body. "We have found that this structure can be destroyed easily, even with low energy collisions," Martin Jutzi summarizes. Willy Benz compares the neck of the comet with the stem of a glass: "A dishwasher has to clean very gently, so that the stem of the glass does not break," says the astrophysicist. Obviously, the solar system did not handle this aspect as carefully.

The new study shows that comets like Chury experienced a significant number of collisions over time, the energy of which would have been sufficient to destroy a bi-lobe structure. Therefore, the shape is not primordial, but has developed through collisions over billions of years. "Chury's present shape is the result of the last major impact which probably occurred within the last billion years," says Martin Jutzi. The duck-shaped Chury is therefore much younger than previously thought. The only alternative would be that the current standard model of the early evolution of the Solar System is not correct and there were fewer small objects than previously thought. In this case there would not have been as many collisions and Chury would have had the chance to keep its primordial shape. "At the moment, we do think though that Chury's shape is the result of many collisions, and that the standard model doesn't need to be revised," says Jutzi.

New shape, same content

In the second paper, Jutzi and Benz investigate exactly how Chury's current form could have resulted from a collision. In their computer models, they had small objects with a diameter of 200 to 400 meters crashing into a roughly five-kilometre, rotating body in the form of a rugby ball (see animation). The impact speed was in the range of 200 to 300 meters per second, which clearly exceeds the escape velocity for objects of this size (about 1 meter per second). However, the energy involved is still far below that of a catastrophic impact in which a large part of the body is pulverized. As a result, the target was torn in two parts, which, due to the effects of their mutual gravitational force, later merged into a structure with two parts -- a structure like Chury.

Does the result of this research contradict previous knowledge that comets consist of primordial material at least as old as our solar system? "No," the researchers say. Their computer simulations show that the relatively small impact energy does not heat or compress the comet globally. The body is still porous and the volatile material which was contained in it since the beginning is retained. In connection with Chury, these properties could be measured convincingly with the space probe Rosetta. "So far, it has been assumed that comets are original building blocks -- similar to Lego," says Willy Benz. "Our work shows that the Lego blocks no longer have their original form, but the plastic that they consist of is still the same as in the beginning."


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Materials provided by University of Bern. Note: Content may be edited for style and length.


Journal References:

  1. M. Jutzi, W. Benz, A. Toliou, A. Morbidelli, R. Brasser. How primordial is the structure of comet 67P/C-G? Combined collisional and dynamical models suggest a late formation. Astronomy & Astrophysics, November 2016
  2. M. Jutzi, W. Benz. Formation of bi-lobed shapes by sub-catastrophic collisions – A late originin of comet 67P/C-G’s structure. Astronomy & Astrophysics, November 2016

Cite This Page:

University of Bern. "Comet Chury is much younger than previously thought." ScienceDaily. ScienceDaily, 9 November 2016. <www.sciencedaily.com/releases/2016/11/161109090349.htm>.
University of Bern. (2016, November 9). Comet Chury is much younger than previously thought. ScienceDaily. Retrieved November 20, 2024 from www.sciencedaily.com/releases/2016/11/161109090349.htm
University of Bern. "Comet Chury is much younger than previously thought." ScienceDaily. www.sciencedaily.com/releases/2016/11/161109090349.htm (accessed November 20, 2024).

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