R Sculptoris is a dying red giant star located ~1,000
light-years from Earth. The star is surrounded by a detached shell of dust and
gas that was created during a thermal pulse event where the star underwent a
brief period of increased mass loss. A team of astronomers using the Atacama
Large Millimeter/Submillimeter Array (ALMA) in the Atacama Desert of northern
Chile discovered the presence of a spiral structure within the shell of material
around R Sculptoris. The spiral structure extends from the central star
outwards to the shell. “We’ve seen shells around this kind of star before, but
this is the first time we’ve ever seen a spiral of material coming out from a
star, together with a surrounding shell,” says Matthias Maercker, the lead
author on the paper presenting the results.
+-+1.jpg)
Figure 1: A visualization of the spiral structure around R
Sculptoris. Credit: ALMA (ESO/NAOJ/NRAO)
Towards the end of their lives, low-mass and intermediate-mass
stars, such as the Sun, become red giant stars and start to lose a large amount
of their mass. During the red giant phase of a star, it also periodically experiences
thermal pulses. A thermal pulse occurs when a thin shell of helium surrounding
the star’s core fuses the helium into carbon in an explosive fashion. The
thermonuclear convulsion dumps a huge amount of energy into the star’s interior
which causes the star to blast off a significant amount of material. For this
reason, red giant stars like R Sculptoris are major contributors to the bulk of
raw materials such as carbon and oxygen that are incorporated into the
formation of future generations of stars and planets.
+-+2.jpg)
Figure 2: The detached shell and spiral structure observed
in different velocity channels. Numbers in the top right corners indicate the
velocity in km/s with respect to R Sculptoris. The detached shell is most
pronounced at lower velocities while the spiral structure can be traced through
all velocity channels. (M. Maercker et al., 2012)
+-+3.jpg)
Observational data combined with hydrodynamic simulations
suggests that the shell of dust and gas around R Sculptoris was created when the
star underwent a thermal pulse ~1,800 years ago, lasting for ~200 years. The
spiral structure observed around R Sculptoris is most likely caused by the
presence of a companion star that is shaping the stellar wind into a spiral
pattern, like a rotating garden sprinkler. Extending from the central star out
to the shell, the spiral structure can be followed over about 5 windings. Based
on the spacing of the windings and the present-day expansion velocity of the
stellar wind streaming from R Sculptoris, the companion star around R Sculptoris
is estimated to have an orbital period of 350 years.
The amount of material present in the shell of dust and gas
around R Sculptoris is estimated to have a mass of ~0.003 times the Sun’s mass
(~1000 times the Earth’s mass). All these material was blasted outward at
50,000 kilometres per hour. Since the thermal pulse lasted for ~200 years, the
mass-loss rate of R Sculptoris during the thermal pulse is ~5 Earth masses per
year. This is about 30 times lower than the present-day mass-loss rate of ~0.15
Earth masses per year. “It’s a real challenge to describe theoretically all the
observed details coming from ALMA, but our computer models show that we really
are on the right track. ALMA is giving us new insight into what’s happening in
these stars and what might happen to the Sun in a few billion years from now,”
says Shazrene Mohamed, a co-author of the study.
Reference:
M. Maercker et al., “Unexpectedly large mass loss during the
thermal pulse cycle of the red giant star R Sculptoris”, Nature 490, 232-234
(11 October 2012)