Published online: 11 May 2007; | doi:10.1038/news070508-13 / http://www.nature.com/news/2007/070508/full/070508-13.html
Spying on the oldest stars in the Universe
Astronomers find a star that's 13.2 billion years old.Katharine Sanderson
What's been found?

| Artist's impression of a very, very old star: HE 1523-0901 ESO |
|
A
star, with the not-so catchy name of HE 1523-0901, that's estimated to
be 13.2 billion years old (plus or minus 2 billion years) - almost as
old as our 13.7-billion-year-old Universe. Despite being so old, it's
quite nearby; it's in our Galaxy of the Milky Way.
Did we know that stars can be that old?Yes - other really old stars have been found, such as the ancient CS 31082-001, estimated to be 14 billion years old.
Isn't that older than the Universe?Well,
yes, but that age estimate comes with an error bar of plus or minus 3
billion years. So (presumably) it's not actually older than the
Universe it sits in. The first generation of stars are thought to have
formed a few hundred million years after the Big Bang. Both of these
ancients are probably slightly younger than that, forming roughly half
a billion years after the big bang.
Is this ancient neighbour of ours still burning?Definitely.
Stars such as this one are thought to last longer than the age of the
Universe now. Eventually they will cool down and become white dwarfs,
which will then hang around until the end of time.
Is it still bright enough to be seen from Earth, despite being so old?This
kind of star is known as a bright giant, and its brightness from Earth
has a value of 11.1 on a fairly confusing scale of brightness, in which
the higher the number, the less bright the star is. Our Sun has a value
of -26 on the same scale, and Venus, which is easy to spot with the
naked eye, has a value of -4. So HE 1523-0901 is not very bright, but
it can be seen with a normal telescope. "These stars are shining right
on top of us," says Anna Frebel, at the University of Texas, Austin,
who found the star.
How was this one found?Frebel
found the star by trawling through a bunch of stars already suspected
to be fairly old. She found a hint of uranium (an element that can help
to closely date a star) in one, so went back to take a closer look.
Voilá - the granddaddy of stars was found.
And how did they measure its age?In
a similar way to the way objects are dated here on Earth - using
radioactive isotopes. In this case, the metal-poor star had enough
uranium and thorium to get a measurement using a spectrograph on the
Very Large Telescope at the European Southern Observatory in Chile.
The
half-life of uranium is 4.5 billion years; 14 billion years for
thorium. Comparing ratios of the two elements, along with proportions
of other metals such as europium, osmium and iridium, allowed Frebel to
estimate the age of the star.
Can we use this star to find out things about the early Universe?By
studying 'neutron-capture elements' such as uranium, astronomers can
learn about the supernova that produced the elements in the first
place, before they formed into a star. It's almost impossible to
recreate the nuclear synthesis process of supernovae in the lab, so
theorists use stars as cosmic laboratories, to provide them with
experimental data on which to base their theories.
Looking
at old stars tells us what could be produced and how it was produced,
allowing astronomers to work backwards to piece together the puzzle of
what the Universe looked like chemically when it formed.
Can we find even older stars?Possibly. But the very first generation of stars were
probably very big - 100 times as massive as our Sun - and so would have
decayed quickly. They're long dead by now, says Frebel.
What's the oldest thing ever found in the Universe? The
cosmic microwave background (CMB) - the radiation left over by the Big
Bang - is the oldest 'thing' ever seen. The heat of the CMB was used to
age the Universe.
References : Frebel A., et al. Astrophys. J.,
660
.
L117
-
L120
(2007).
Quel est l'âge des étoiles ? Assez curieusement, il est très difficile de répondre à une telle question, surtout pour les étoiles les plus anciennes. Leur cycle de vie suit bien un parcours précis, mais qui est sujet à de nombreux facteurs de modification en fonction de leur masse et même de leur environnement (simple, double, avec ou sans échange de matière, etc.).
http://www.futura-sciences.com/fr/sinformer/actualites/news/t/astronomie/d/une-etoile-fossile-au-sein-de-notre-galaxie_11809/
Découverte d'une étoile "fossile" de 13,2 milliards d'années !
http://www.techno-science.net/?onglet=news&news=4067