Planetary professor shows what alien sunset really looks like

January 11, 2012 by Bob Yirka report
Sunset on HD209458b (reconstructed from the HST/STIS transmission spectrum). Image: Frederic Pont

( -- One of the great things about science is how so many people are able to use their imagination to conjure ideas, concepts or in some cases actual images of things in their mind, and then to use the tools at hand to bring such ideas to light so that others may see them as well.

One such recent application of this is Professor Frederic Pont, of the University of Exeter, who imagined what it might really look like if a person were able to visit another planet and to then sit quietly watching as the set, just as so many of us do here on planet Earth. But simply imagining how it might look wasn’t enough for Pont, he used data from a camera onboard Hubble, called appropriately enough, the Space Telescope, knowledge of how the color of light changes based on chemicals it encounters, and computer modeling, to create an actual image of what a sunset on an actual planet far out in space would look like. He’s posted it on his blog.

The planet in question, exoplanet HD209458b, nicknamed Osiris, just happens to be quite large and circles its star rather closely. At certain points, when the planet passes between us and its star, the light from that star passes through Osiris’s atmosphere before reaching us. That allows exoplanet specialists such as Pont, to figure out what is in that atmosphere. And once that is known, it becomes possible to deduce what colors would appear to our naked eyes, were we able to sit there on that planet watching that star set.

Though we couldn’t technically sit on the surface of Osiris, since it doesn’t have one, the picture that Pont produced approximates what it would look like, were it to exist, and the results are truly beautiful. This is because the light from Osiris’s star is white, like our own sun, but when it passes through the sodium in Osirisi’s atmosphere, red light in it is absorbed, leaving the starlight to appear blue. But then, as the sun sets, the blue light is scattered in the same way as it is here on Earth (Rayleigh scattering) causing a gradual change to green, and then to mushy dark green. And finally, due to diffraction, the bottom of the image becomes slightly flattened.

So now, instead of simply sitting around imagining what it might look like to kick back and watch the sun set on a planet 150 years away, we can look at Pont’s picture, and see for ourselves.

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3.5 / 5 (8) Jan 11, 2012

I wonder how much effort it took to generate that and if he can/will do it for other exoplanets?
1 / 5 (3) Jan 11, 2012
...and you would see the bones in your hand, when observing this sunset through it...
1.8 / 5 (16) Jan 11, 2012
I'll take a nice orange sunset over the Pacific any day but yeah this is pretty cool. I agree with Deathclock, I think it would be cool to do this for other planets we have discovered.
1 / 5 (1) Jan 12, 2012
Adaptive optics.

Viewing the Suns of planets with sensory optics endowed by the composition of this planet's own atmosphere and bestowed upon us through life's evolution in concert with this atmosphere's compositional evolution. Mutual complimenting evolutions - hardly befitting to call one of those evolutions lifeless and inanimate.
1 / 5 (3) Jan 12, 2012
Sub: Open end approach
Open end approach helps science to advance.A disc in a cyan sky purple sunset over Osiris-150 LY is a welcome feature. Thanks for the information.I do expect some useful phenomena around or100 Ly-240 Ly range . this links very well to Plasma Regulated Electromagnetic Phenomena in magnetic field Environment -from 100 AU to heart of Universe.

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