Why nebulae around massive stars don't disappear

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Washington, March 17 (ANI): A team of scientists, using computer simulations, has solved a 20-year-old riddle about why nebulae around massive stars don't disappear.

Massive stars are dense enough to fuse hydrogen while they're still gathering material from the gas cloud, so it was a mystery why their brilliant radiation does not heat the infalling gas and blow it away.

New simulations by researchers affiliated with the University of Heidelberg, American Museum of Natural History, the National Autonomous University of Mexico, and the Harvard-Smithsonian Center for Astrophysics show that as the gas cloud collapses, it forms dense filamentary structures that absorb the star's radiation when it passes through them.

A result is that the surrounding heated nebula flickers like a candle flame.

"To form a massive star, you need massive amounts of gas," said Mordecai-Mark Mac Low, a co-author and curator in the Department of Astrophysics at the Museum. "Gravity draws that gas into filaments that feed the hungry baby stars," he added.

Stars form when huge clouds of gas collapse.

Once the central density and temperature are high enough, hydrogen begins to fuse into helium and the star begins to shine.

The most massive stars, though, begin to shine while the clouds are still collapsing.

Their ultraviolet light ionizes the surrounding gas, forming a nebula with a temperature of 10,000 degrees Celsius.

This suggests that the growth of a massive star should taper off or even cease because the surrounding gas should be blown away by the heating.

First author Thomas Peters, a researcher at the Center of Astronomy at the University of Heidelberg and a former Annette Kade Fellow at the Museum, and colleagues ran gas dynamical simulations on supercomputers at the Texas Advanced Computing Center funded by the National Science Foundation and at the Leibniz and Juelich Computing Centers in Germany.

The team's results show that interstellar gas around massive stars does not fall evenly onto the star, but instead forms filamentary concentrations because the amount of gas is so great that gravity causes it to collapse locally while falling to the star. he local areas of collapse form spiral filaments.

When the massive star passes through them, they absorb its ultraviolet radiation, shielding the surrounding gas.

This shielding explains not only how gas can continue falling in, but why the ionized nebulae observed with radio telescopes are so small.

The nebulae shrink again as they are no longer ionized, so that over thousands of years, the nebula appears to flicker, almost like a candle. (ANI)

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