A new anniversary image from the NASA/ESA Hubble Space Telescope reveals surprisingly fast evolution in a turbulent stellar nursery called the Trifid Nebula, where newborn stars sculpt gas and dust on human timescales.
This Hubble shows the Trifid Nebula. Image credit: NASA / ESA / STScI / J. DePasquale, STScI.
The Trifid Nebula was discovered by the French astronomer Charles Messier on June 5, 1764.
Also known as Messier 20, M20 or NGC 6514, the nebula lies in the constellation of Sagittarius.
The distance to the object is debatable, but estimates range broadly from 2,200 to 9,000 light-years.
“The colors in Hubble’s visible light image of this shimmering region of star-formation are reminiscent of an underwater scene filled with fine-grained sediments fluttering through the ocean’s depths,” the Hubble astronomers said in a statement.
“Several massive stars, which are outside this field of view, have shaped this region for at least 300,000 years.”
“Their powerful ultraviolet winds continue to blow an enormous bubble, a small portion of which is shown here, that pushes and compresses the cloud’s gas and dust, triggering new waves of star formation.”
“This isn’t the first time Hubble has gazed at this scene,” they added.
“The telescope observed the Trifid in 1997 and now, 29 years later, it has leveraged almost its full operational lifetime to show us changes in the nebula on human time scales.”
“Why look at the same location again? In addition to seeing changes over time, Hubble is also equipped with an improved camera with a wider field of view and greater sensitivity that was installed during the fourth servicing mission.”
Hubble’s view of the Trifid Nebula focuses on a ‘head’ and undulating ‘body’ of a rusty-colored cloud that resembles a marine sea lemon, or sea slug, that appears as if it is gliding through the cosmos.
“The Cosmic Sea Lemon’s left ‘horn’ is part of Herbig-Haro 399, a jet of plasma periodically ejected over centuries by a young protostar embedded in the head of the sea lemon,” the astronomers said.
“Changes observed allow researchers to measure the speeds of the outflows and determine how much energy the protostar is injecting into these regions.”
“The measurements will provide insights into how newly formed stars interact with their surroundings.”
“To the immediate lower right is evidence of the counter jet: jagged orange and red lines that ‘run’ down the back of the sea lemon’s neck, where a natural V appears in the brown dust.”
“The darker, more triangular ‘horn’ on the right of the ‘head’ hosts another young star at its tip.”
“The green arc above a faint red dot with a tiny jet may be evidence that a circumstellar disk is being eroded by the intense ultraviolet light from nearby massive stars.”
“The clearer the area around this protostar suggests it may be almost finished forming.”
“To the immediate left of the Cosmic Sea Lemon is a small, faint pillar,” they added.
“Much of this pillar’s gas and dust has been blown away, but the densest material at the top persists.”
“Streaks and sharp lines offer more clues about other young stars’ activities.”
“Spy an example by looking near the center for a rippling angled line that begins in a bright orange and ends in a blazing red.”
“At the top of the Cosmic Sea Lemon’s head, bright yellow gas streams upward.”
“This is an example of ultraviolet light plowing into the dark brown dust, stripping and dismantling the gas and dust.”
“Many ridges and slopes of dark brown material will remain for a few million years, as the stars’ ultraviolet light slowly eats away at the gas.”
“The densest areas are home to protostars, which are obscured in visible light.”
“The far-right corner is nearly pitch black. This is where the dust is the densest. The stars that appear here may not be part of this star-forming region — they might be closer to us, in the foreground.”
“Now, scan the scene for bright orange orbs. These stars have fully formed, clearing the space around them.”
“Over millions of years, the nebula’s gas and dust that make up the nebula will disappear — and only stars will remain.”
