The Blue Ring Nebula harbors a central star, known as TYC
2597-735-1. An unusual ultraviolet ring surrounds the star, which astronomers
first observed in 2004 using NASA's now-defunct Galaxy Evolution Explorer
(GALEX) space telescope. Until now, the formation of this peculiar ring — which
is actually invisible ultraviolet light that has been color-coded blue in the
telescope images — has largely remained a mystery.
"Every time we thought we had this thing figured out,
something would tell us, 'No, that's not right,'" Mark Seibert, an
astrophysicist with the Carnegie Institution for Science, a member of the GALEX
team and a co-author on the new research, said in a statement. "That's a
scary thing as a scientist. But I also love how unique this object is, and the
effort that so many people put in to figure it out."
The Blue Ring Nebula is believed to have formed after a stellar collision, which ejected a cloud of hot debris into space. These emissions appear to form a ring around the nebula's central star, as the outflow of material forms a cone shape and the base of one of the cones is oriented almost directly toward Earth.
Using the W. M. Keck Observatory in Hawaii, researchers found
that the blue ring is actually the base of a cone-shaped cloud of glowing
molecular hydrogen that extends away from the central star, toward Earth. The
new observations also show a second cone-shaped cloud that extends from the
star in the opposite direction.
The bases of the cone-shaped clouds appear to overlap when
viewed from Earth, creating the ring shape around the star, Christopher Martin,
a physicist at the California Institute of Technology (Caltech) and former
principal investigator of GALEX, said in a news conference held digitally on
Tuesday (Nov. 17), before the research was made public.
The scientists behind the new research believe that the clouds
of fluorescent debris formed after a sunlike star collided with and consumed a
smaller stellar companion only a few thousand years ago. The recent
observations capture a never-before-seen evolutionary phase of a stellar
collision.
"The merging of two stars is fairly common, but they
quickly become obscured by lots of dust as the ejecta from them expands and
cools in space, which means we can't see what has actually happened," Keri
Hoadley, lead author of the study and a physicist at Caltech, said in the
statement.
The timing of the new observations was critical in helping
scientists understand the phenomenon. "It's like catching sight of a baby
when it first walks," Don Neill, an astrophysicist at Caltech and a GALEX
team member, said in the statement. "If you blink, you might miss
it."
It was that timing that let the researchers really see what was going on. "We think this object represents a late stage of these transient events, when the dust finally clears and we have a good view," Hoadley said. "But we also caught the process before it was too far along; after time, the nebula will dissolve into the interstellar medium, and we would not be able to tell anything happened at all."
The stellar collision ejected a cloud of hot debris into
space. As the debris flew outward, it created a shock wave that, in turn,
heated up hydrogen molecules in the debris cloud, producing the ultraviolet
emissions scientists first observed back in 2004.
The researchers also used archived data from NASA's Spitzer
Space Telescope and the Wide-field Survey Explorer (WISE), which revealed an
excess of infrared emissions around the central star of the Blue Ring Nebula.
These observations suggest that the star is surrounded by a disk of dust that
absorbs the star's light and then reradiates in the infrared. The researchers
believe that this disk cut the debris cloud surrounding the star in half,
creating the two cone-shaped clouds that extend in opposite directions.