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Astronomers have used the Kepler Space Telescope to observe changes in the brightness of stars in the Pleiades star cluster. Normally, the high brightness of these stars would be too much for Kepler's camera, but a new technique can ignore saturated pixels and glean information about changes in brightness:
While the central pixels in an image of a star become too saturated to take accurate scientific measurements of its brightness, the unaffected pixels around that superbright spot still contain accurate information. This is useful for measuring changes in the brightness of these so-called variable stars, the study's authors report.
"The solution to observing bright stars with Kepler turned out to be rather simple," Tim White, an astrophysicist at Aarhus University in Denmark and lead author of the study, said in the statement. "We're chiefly concerned about relative, rather than absolute changes in brightness. We can just measure these changes from nearby unsaturated pixels, and ignore the saturated areas altogether."
After measuring the light around a star, White and his colleagues found they still needed to adjust their data for any changes in the spacecraft's motion and possible imperfections in the camera's detector. Even the slightest error could prevent the researchers from detecting a star's variability, the authors suggest, adding those errors could be corrected using simple algorithms.
To account for any discrepancies in their measurements, the authors developed "a new technique to weight the contribution of each pixel to find the right balance where instrumental effects are canceled out, revealing the true stellar variability," the Royal Astronomical Society's press release said. White and his colleagues named this new technique "halo photometry."
No exoplanets were detected, but the technique could help Kepler, TESS, and the JWST to spot exoplanets around bright stars, including Alpha Centauri.
Also at the Royal Astronomical Society and the Stellar Astrophysics Centre.
Beyond the Kepler/K2 bright limit: variability in the seven brightest members of the Pleiades (DOI: 10.1093/mnras/stx1050) (DX) (arXiv)
(Score: 2) by Runaway1956 on Monday September 04 2017, @05:48AM (3 children)
Aristotle learned that trick from hoplites. Soldiers learned that looking at a spot made enemy soldiers invisible. Scanning an area works well, and if you thought you saw something, you look off to one side of that spot. The earliest sailors knew how to train a lookout as well. Use an unfocused gaze. and keep your eyes moving, you'll pick things out that you'll never find by "looking". Why does everyone want to give all the credit to a few scholars? Those scholars learned their lessons from someone. Salutes to the Spartans for teaching the philosopher how to look at the stars.
(Score: 3, Insightful) by aristarchus on Monday September 04 2017, @09:04AM (2 children)
As per usual, citation needed.
(Score: 2) by Runaway1956 on Monday September 04 2017, @11:33AM (1 child)
http://www.ibiblio.org/hyperwar/USN/ref/Lookouts/#S7 [ibiblio.org]
http://greenfleet.dodlive.mil/files/2010/04/LOOKOUT-TRAINING-HANDBOOK-NAVEDTRA-12968-D.pdf [dodlive.mil] chapter 4
(Score: 3, Insightful) by aristarchus on Monday September 04 2017, @09:30PM
I see no documents that pre-date Aristotle, nor any mention of him at all, nor any mention of hoplites or Spartans. This last bit is not surprising, since the Spartans were not that great, Navally speaking. So how is this citation supposed to show that Aristotle learned this from the military? (Actually, not a bad reference, just a bit off the point. Thanks, Runaway.)