The life cycle of a Sun-like star: This 3D animation shows the life of a Sun-like star, from its birth on the left side of the frame to its evolution into a red giant star on the right. On the left the star is seen as a protostar, embedded within a dusty disc of material as it forms. It later becomes a star like our Sun. After spending the majority of its life in this stage, the star transforms into a red giant.
Following this stage, the star will push its outer layers into the surrounding space to form an object known as a planetary nebula, while the core of the star itself will cool into a small, dense remnant called a white dwarf star. Marked on the lower timeline are where our Sun and solar twins 18 Sco and HIP 102152 are in this life cycle. The Sun is 4.6 billion years old and 18 Sco is 2.9 billion years old, while the oldest solar twin is some 8.2 billion years old — the oldest solar twin ever identified. By studying HIP 102152, we can get a glimpse of what the future holds for our Sun.This animation is illustrative; the ages, sizes, and colours are approximate (not to scale). The protostar stage can be some 2000 times larger than our Sun. The red giant stage can be some 100 times larger than the Sun. Credit: ESO/M. Kornmesser
Zooming in on the oldest solar twin HIP 102152:This video zooms in on the solar twin HIP 102152 in the constellation of Capricornus (The Sea Goat).Located 250 light-years from Earth, HIP 102152 is more like the Sun than any other solar twin — apart from the fact that it is nearly four billion years older, giving us an unprecedented chance to study how the Sun will look when it ages. It is the oldest solar twin identified to date, and was studied by an international team using ESO’s Very Large Telescope, led by astronomers in Brazil. Credit:ESO/Digitized Sky Survey 2/Nick Risinger (skysurvey.org). Music: movetwo
Oldest Solar Twin Identified. ESO’s VLT provides new clues to help solve lithium mystery WWW.GOODNEWS.WS