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Los Alamos Computers Probe How Giant Planets Formed

Date:
July 22, 2004
Source:
Los Alamos National Laboratory
Summary:
A scientist at the University of California's Los Alamos National Laboratory has created exhaustive computer models based on experiments in which the element hydrogen was shocked to pressures nearly as great as those found inside the two planets.

LOS ALAMOS, N.M., July 13, 2004 -- Nearly five billion years ago, the giant gaseous planets Jupiter and Saturn formed, apparently in radically different ways.

So says a scientist at the University of California's Los Alamos National Laboratory who created exhaustive computer models based on experiments in which the element hydrogen was shocked to pressures nearly as great as those found inside the two planets.

Working with a French colleague, Didier Saumon of Los Alamos' Applied Physics Division created models establishing that heavy elements are concentrated in Saturn's massive core, while those same elements are mixed throughout Jupiter, with very little or no central core at all. The study, published in this week's Astrophysical Journal, showed that refractory elements such as iron, silicon, carbon, nitrogen and oxygen are concentrated in Saturn's core, but are diffused in Jupiter, leading to a hypothesis that they were formed through different processes.

Saumon collected data from several recent shock compression experiments that have showed how hydrogen behaves at pressures a million times greater than atmospheric pressure, approaching those present in the gas giants. These experiments - performed over the past several years at U.S. national labs and in Russia - have for the first time permitted accurate measurements of the so-called equation of state of simple fluids, such as hydrogen, within the high-pressure and high-density realm where ionization occurs for deuterium, the isotope made of a hydrogen atom with an additional neutron.

Working with T. Guillot of the Observatoire de la Cote d'Azur, France, Saumon developed about 50,000 different models of the internal structures of the two giant gaseous planets that included every possible variation permitted by astrophysical observations and laboratory experiments.

"Some data from earlier planetary probes gave us indirect information about what takes place inside Saturn and Jupiter, and now we're hoping to learn more from the Cassini mission that just arrived in Saturn's orbit," Saumon said. "We selected only the computer models that fit the planetary observations."

Jupiter, Saturn and the other giant planets are made up of gases, like the sun: They are about 70 percent hydrogen by mass, with the rest mostly helium and small amounts of heavier elements. Therefore, their interior structures were hard to calculate because hydrogen's equation of state at high pressures wasn't well understood.

Saumon and Guillot constrained their computer models with data from the deuterium experiments, thereby reducing previous uncertainties for the equation of state of hydrogen, which is the central ingredient needed to improve models of the structures of the planets and how they formed.

"We tried to include every possible variation that might be allowed by the experimental data on shock compression of deuterium," Saumon explained.

By estimating the total amount of the heavy elements and their distribution inside Jupiter and Saturn, the models provide a better picture of how the planets formed through the accretion of hydrogen, helium and solid elements from the nebula that swirled around the sun billions of years ago.

"There's been general agreement that the cores of Saturn and Jupiter are different," Saumon said. "What's new here is how exhaustive these models are. We've managed to eliminate or quantify many of the uncertainties, so we have much better confidence in the range within which the actual data will fall for hydrogen, and therefore for the refractory metals and other elements.

"Although we can't say our models are precise, we know quite well how imprecise they are," he added.

These results from the models will help guide measurements to be taken by Cassini and future proposed interplanetary space probes to Jupiter.

Los Alamos National Laboratory is operated by the University of California for the National Nuclear Security Administration (NNSA) of the U.S. Department of Energy and works in partnership with NNSA's Sandia and Lawrence Livermore national laboratories to support NNSA in its mission.

Los Alamos develops and applies science and technology to ensure the safety and reliability of the U.S. nuclear deterrent; reduce the threat of weapons of mass destruction, proliferation and terrorism; and solve national problems in defense, energy, environment and infrastructure.


Story Source:

The above story is based on materials provided by Los Alamos National Laboratory. Note: Materials may be edited for content and length.


Cite This Page:

Los Alamos National Laboratory. "Los Alamos Computers Probe How Giant Planets Formed." ScienceDaily. ScienceDaily, 22 July 2004. <www.sciencedaily.com/releases/2004/07/040721085541.htm>.
Los Alamos National Laboratory. (2004, July 22). Los Alamos Computers Probe How Giant Planets Formed. ScienceDaily. Retrieved October 21, 2014 from www.sciencedaily.com/releases/2004/07/040721085541.htm
Los Alamos National Laboratory. "Los Alamos Computers Probe How Giant Planets Formed." ScienceDaily. www.sciencedaily.com/releases/2004/07/040721085541.htm (accessed October 21, 2014).

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