‘Supernova in a jar’ offers peek inside star death – COSMIC TRIBUNE
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IT’S NOT JUST IN YOUR MIND!

‘Supernova in a jar’ offers peek inside star death

Image credit NASA, Caltech, MPIA, and Calar Alto

Tycho’s supernova remnant, a real-world example of a Type Ia supernova.

An an attempt to peer inside powerful star explosions, scientists recently made a “supernova in a jar” using a chemical reaction in a viscous fluid.

Called the iodate-arsenous acid (IAA) system, the experiment involved injecting a small shot of acid into glycerol to trigger a self-sustaining reaction.

The result was a rising “vortex ring,” a structure that superficially resembles a smoke ring or the mushroom cloud from an atomic bomb.

According to computer simulations, vortex rings are also created inside Type Ia supernovae, which can occur when stellar corpses, known as white dwarfs, siphon gas from healthy neighboring stars.

When a white dwarf reaches a critical mass threshold—the equivalent of the shot of acid in the lab experiment—the star explodes in one of the most energetic events known to occur in the universe. (Related: “New Type of Supernova Discovered.”)

Both supernovae and the IAA system are self-mixing reactions, said study co-author Stephen Morris, a physicist at the University of Toronto in Canada. Studying the reaction can therefore tell astronomers more about the dynamics inside an exploding star.

This is especially important for Type Ia supernovae, because these explosions tend to produce consistently bright remnants. Many scientists therefore rely on the remnants to calculate distances between galaxies.

Unlike smoke rings, which slow down as they rise and mix with cold air, an IAA vortex ring speeds up with time. Usually, the vortex ring forms and disappears in a matter of seconds, making it difficult to study — or it might not have time to form at all.

In the new experiment, scientists increased the viscosity of the reactant solution by adding a thickening agent. This slowed down the process enough so that the vortex ring was easily observable.

The vortex ring took about ten minutes to form and climb to the top of a 16-inch-tall (40-centimeter-tall) vertical cylinder, where it flattened out.

As with the IAA reaction, scientists think the vortex ring that forms inside a white dwarf as it starts to explode grows bigger and more powerful with time. If this did not happen, the dense, old star could not burst apart.

(Related: “Colliding Dead Stars Set Off Massive Supernova.”)

Of course, there are lots of differences between supernovae and the chemical reaction performed in the lab, the study authors note.

“First off, there’s nothing nuclear about our reaction. It’s very gentle,” Morris said.

“But it is analogous, because it is a flow that is driven by a bubble of reacted fluid, which generates its own subsequent flow, which fuels the reaction and produces an accelerating vortex ring.” Read Full Story

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