Ultra-Powerful Laser Reproduces How Star's Jets Travel through Interstellar Space

Nov 20, 2009
Image of the stellar jet of HH 110, which is dramatically similar to the simulations (credit NASA)

(PhysOrg.com) -- A multi-trillion-watt laser at the University of Rochester has simulated a stellar jet -- an outpouring of matter from a fledgling star -- with unprecedented realism.

The achievement, which is detailed in the latest issue of the , is the latest in a series of experiments in which scientists from around the world have converged on the University of Rochester's Laboratory for Energetics (LLE) to recreate astronomical events in a laboratory. The team, led by Pat Hartigan at Rice University, used the LLE's Omega laser, one of the most powerful lasers in the world, to reproduce the way a stellar jet behaves when it slams into giant clouds of dust and gas that exist where are born.

"The LLEs' Omega has become the premier facility for laboratory astrophysics experiments because it can explore situations too complicated to study in any other way," says Adam Frank, professor of physics and astronomy at the University of Rochester and one of the computational scientists in the study. "Even 3-D often lack the resolution to study these new aspects of stellar jet evolution properly. The Omega laser let us create a tiny artificial jet and blast it into a foam cloud to see what happens. The results gave us new insights into what happens in nature on scales a trillion trillion times larger."

Frank explains that stellar jets form when magnetic fields around a newly born star force matter to shoot from the star's poles at hundreds of miles per second. This relatively simply method of creation suggests that the jets themselves should be fairly simple in shape, but stellar jets usually take on convoluted and varied shapes. Frank says that some of this complexity may be due to interactions with the surrounding stellar environment. In its recent experiments, the group using the Omega laser found that jets will be strongly deflected when they run into a dense cloud, creating a high-speed splatter of plasma.

The University of Rochester's Omega laser sends a stream of plasma deflecting off a plastic ball, simulating a stellar jet striking a cloud of dust in space.

For the jet-cloud experiment, the scientists at the Laboratory for Laser Energetics fired the Omega at a marble-sized piece of titanium. In just a few millionths of a second, the Omega laser released multi-trillion watt bursts of energy—more power than is in the entire electrical grid of the United States—making it among the three most powerful lasers in the world. The laser almost instantaneously heated the titanium into a plasma and propelled it toward a sphere of plastic embedded in foam. Frank says the titanium acts very much like a stellar jet, and the sphere acts very much like interstellar gas.

"The deflection and splatter we saw in the experiments showed us key features of how real astrophysical jets will respond in complicated environments," says Frank. "But this was a really complicated experiment which could only have been done on the LLE's Omega laser. It's really helping us think about these jets in new ways."

One of the novel aspects of the program was the acquisition and use of new astronomical data to compare to the simulation. "This had never been done before" says Frank. Hartigan used high-power telescopes to get new images of Herbig Haro 110, a stellar jet hundreds of light years away, which is being deflected by a nearby star-forming cloud. "We used those images to compare with the experiments which then helped us think about the whole jet cloud deflection process differently. This is the first time that new astrophysical data has been taken explicitly for a laboratory experiment"

Provided by University of Rochester (news : web)

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