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Improved Estimates of the Distance To the Large Magellanic Cloud 56

Long-time Slashdot reader colinwb writes: A team of researchers has published a letter in Nature (2019) estimating the distance to the Large Magellanic Cloud" to a precision of one per cent; Arxiv (2019).

The Arxiv abstract: In the era of precision cosmology, it is essential to empirically determine the Hubble constant with an accuracy of one per cent or better. At present, the uncertainty on this constant is dominated by the uncertainty in the calibration of the Cepheid period — luminosity relationship (also known as Leavitt Law). The Large Magellanic Cloud has traditionally served as the best galaxy with which to calibrate Cepheid period-luminosity relations, and as a result has become the best anchor point for the cosmic distance scale. Eclipsing binary systems composed of late-type stars offer the most precise and accurate way to measure the distance to the Large Magellanic Cloud. Currently the limit of the precision attainable with this technique is about two per cent, and is set by the precision of the existing calibrations of the surface brightness — colour relation. Here we report the calibration of the surface brightness-colour relation with a precision of 0.8 per cent. We use this calibration to determine the geometrical distance to the Large Magellanic Cloud that is precise to 1 per cent based on 20 eclipsing binary systems. The final distane is 49.59 +/- 0.09 (statistical) +/- 0.54 (systematic) kiloparsecs.

In 2013 a team of researchers (including several of the current researchers) published a letter in Nature (2013) which estimated the distance with a precision of two per cent; Arxiv (2013).

Another team of researchers has also posted their recent research on Arxiv (2019) in which they provide a 1% foundation for the determination of the Hubble Constant.

All the links are to abstracts; the full letters to Nature are paywalled, but the Arxiv abstracts have links to PDFs which seem to be complete and accessible.
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Improved Estimates of the Distance To the Large Magellanic Cloud

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  • Finally (Score:5, Funny)

    by Anonymous Coward on Monday March 25, 2019 @06:50AM (#58329810)

    Now my navigation system will be able to estimate the arrival time correctly. Why did this take so long?

    • I’ve never believed your stated Kessel Run times anyway, Han.

      • I've never believed your stated Kessel Run times anyway, Han.

        Of course you mean, "Kessel Run distances". (In this case, "run" means "route".)

        From: 'Solo: A Star Wars Story' Solves The Kessel Run Problem [forbes.com]

        According to Star Wars: The Essential Atlas and the Solo novels, the road to Kessel involved navigating a cluster of black holes known as 'the Maw'. This would typically take 18 parsecs -- to avoid falling into the Maw's gravity wells -- but with a sturdy ship like the Millennium Falcon and a daring captain like Han, a smuggler could skirt close to the edges of the Maw and cut the distance down to 12 parsecs.

  • Units of Distance (Score:5, Informative)

    by chill ( 34294 ) on Monday March 25, 2019 @07:57AM (#58330108) Journal

    1 Parsec = 3.26 light years
    1 Kiloparsec = 3262 light years
    1 light year = 9.46 trillion kilometers = 5.88 trillion miles

    Further than the Basingstoke Roundabout, so stick out your thumb and be prepared for a long trip.

  • by rossdee ( 243626 ) on Monday March 25, 2019 @08:55AM (#58330318)

    in Kessel Runs ?

  • Space is Big, Really Big, you won't believe how mindbogglingly huge it is. You might think it is a long way to the Chemist, but that is just peanuts to space, LISTEN! (Apologies to Douglas Adams)
    But the size of space, 1% is just a really big number. Lets just say there is a 1% chance you will get hit by a car every day. That means on the average you will be hit by a car 3-4 times every year, for most people that is a lot of times getting hit by a car.

  • by spaceyhackerlady ( 462530 ) on Monday March 25, 2019 @12:28PM (#58331610)

    I always take a telescope with me whenever I visit the southern hemisphere and have spent many evenings (mainly from Australia) exploring the Large Magellanic Cloud. The Tarantula Nebula is one of those must-see items on any such trip.

    The Small Magellanic Cloud doesn't have as many goodies but has 47 Tucanae next door which more than makes up for it.

    ...laura

  • How does one measure the distance to a cloud? Are they measuring to one specific star in the cloud? If not... How to measure the distance to something that has no defineable edges or centre?

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