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Kepler Watches White Dwarf Warp Spacetime

Posted by samzenpus on from the bend-and-stretch dept.

astroengine writes "The Kepler space telescope's prime objective is to hunt for small worlds orbiting distant stars, but that doesn't mean it's not going to detect some extreme relativistic phenomena along the way. While monitoring a red dwarf star — designated KOI-256 — astronomers detected a dip in starlight in the Kepler data. But it wasn't caused by an exoplanet. After some careful detective work, the researchers found that the red dwarf was actually in orbit around a binary partner — a white dwarf. As the white dwarf passed in front of the red dwarf, the starlight was enhanced by microlensing — a phenomenon caused by an intense gravitational field focusing light from behind. This had the counter-intuitive result of causing the starlight to dim when the white dwarf passed behind the red dwarf and then brighten as the white dwarf passed in front. This is one of the first discoveries of a binary partner through microlensing. 'Only Kepler could detect this tiny, tiny effect,' said Doug Hudgins, Kepler program scientist at NASA Headquarters, Washington. 'But with this detection, we are witnessing Einstein's theory of general relativity at play in a far-flung star system.'"

8 of 58 comments (clear)

  1. Anticipation by damm0 · · Score: 4, Interesting

    Since the current Kepler has produced stunning science, I sure hope they put another one up when this one conks out thanks to losing the last of its gyroscopes. It's a shame that Kepler is facing a crash just as it is hitting stride.

  2. Re:FTL travel = impossible by smaddox · · Score: 5, Informative

    It's entirely true that faster than light travel is forbidden by general relativity. However, geometries with closed timelike curves, which can behave very much like time-machines, are not forbidden. It remains to be seen if such curves can be created and controlled. If they can, then a more complete model would be needed to include the effects of such phenomenon. As it stands, such curves could behave in several ways. In one formulation, self consistency would always be required. In another, such curves could be through another dimension, leading to self-inconsistent histories.

    Most importantly, closed timelike curves are sufficiently rare that we have not observed natural occurrences. So, although such possibilites are interesting to consider, they are, ultimately, far beyond our current technologies.

  3. thought it was a tv show revue by Nyder · · Score: 3, Funny

    till i realized it was white dwarf, not Red Dwarf...

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  4. Yes by maroberts · · Score: 5, Funny

    Ye cannae change the laws o' physics

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  5. Re:Laws of Physics by AlecC · · Score: 5, Informative

    I think that Kepler is looking only at stars in our galaxy, a few hundred or thousand light years away/ago, so the time ago is not that great - within prehistory if not history, We can be pretty confident that laws of physics have not changed much since mammals evolved. This star is apparently 1,828 light years away,

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  6. Re:A question for the Astronomers by wbr1 · · Score: 3, Informative

    This method of detecting exoplanets is called transit detection, and does indeed require that the solar system be edge on in relation to our view: http://en.wikipedia.org/wiki/Exoplanet#Detection_methods
    So does the doppler method, but I believe there can be a little more difference in the angle, as a doppler shift is slightly easier to measure than a bightness shift, but I am not an expert, I just think I read that somewhere.
    Also, IIRC, the astrometry method, which is not very useful requires the solar system to be at about a 90 degree angle in relation to ours.

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  7. Re:A question for the Astronomers by tgd · · Score: 3, Interesting

    BTW, #2 is why this is so hard, looking out at our galaxy, it's crowded out there!

    For an 'On Earth Analogy', it would be like trying to spot a specific, individual tree in the most densely populated forest on earth, from Mars(or thereabouts).

    IIRC, there's not particularly good evidence that the plane upon which planets form have anything other than a loose association to the plane of the galaxy. (And, they wouldn't need to be much off from it for a planet to almost never pass in front of the star. If you were looking at our sun along the plane of Pluto's orbit, the odds are almost zero that you're at the exact position in which the other planets are going to transit the star -- in almost any direction, the point the two planes cross will be to one side or the other of the star.

    But IANAA.

  8. Re:Laws of Physics by mabhatter654 · · Score: 3, Interesting

    The micro lens effect is interesting because observing it proves Einstien's theory that mass and gravity "warp" space and time. My kid was watching history channel about this just last week... It was incredibly hard to find an event that could prove the theory true, AND take measurements with 1910-era equipment.... This was THE meal or break observation for Einstien's theory of General Relativity.
    And now we have telescopes that find these events "just lying around" the galaxy.