Sun-like Stars Die Beautifully
I’ve talked about planetary nebulae many times on this blog. They fascinate me, just as starbirth regions do. They both represent stars at opposite ends of their lives. Planetary nebulae are old stars in designer wardrobes made for their funerals. As a star like the Sun gets old and begins the long descent into old age and death, it loses much of its mass to space. That mass forms a cloud of gas and dust surrounding the remains of the star, which is slowing contracting to become a small, hot, massive object called a white dwarf. The white dwarf heats up the material in its shroud, and that causes it to glow.
The design of a white dwarf’s burial shroud can be quite complex. Take the object called NGC 2392, or as it’s more commonly known, the Eskimo Nebula. As you can see in the image at the left, the material surrounding the star was ejected long ago and forms what looks like the outer hood of an Eskimo’s hood. The central region is a set of concentric shells and criss-crossing clouds of gas that have led scientists to suspect there’s more than one star at the heart of this object. X-ray emissions coming from the center of the nebula and detected by the Chandra X-Ray Observatory also suggest there’s more than one star here, probably a pair of binary stars.
Our own Sun will die like this in about 5 billion years. It probably won’t look quite so intricate, but the process will be the same. First the Sun’s mass loss (through a speeded-up 50,000 kilometer-per-hour solar wind) will cause it to shed huge amounts of its outer atmosphere to space. It will swell up to become a red giant, possibly reaching out to about the orbit of Earth. Our planet, Venus, and Mercury probably won’t survive, but Mars or the moons of the outer solar system could have a short-lived renaissance where their atmospheres could swell and water might flow freely on their surfaces.
Eventually, the dying Sun will contract to become a dense white dwarf, which will light up the surrounding clouds. The rest of the solar system will cool and die as the Sun does. Tens of billions of years from now there will be no cloud left, just a slowly cooling white dwarf and its dead retinue of worlds. The cloud of gas and dust will have spread out to space, lending itself to the inventory of material available to create new generations of stars and planets.
Astronomers study planetary nebula such as the Eskimo, the Ring, and others, in different wavelengths of light. Each wavelength gives them a good idea of the processes occurring in the nebulae, the speeds of stellar winds, and the action at the cores of these ancient, dying stars. Their insights help us all understand what will eventually happen with the Sun.