Please create an account to participate in the Slashdot moderation system

 



Forgot your password?
typodupeerror
×
Space Science

Exotic "Electroweak" Star Predicted 68

astroengine writes "A new type (or phase) of star has been characterized by Case Western Reserve University scientists in a paper submitted to Physical Review Letters. The 'electroweak' star is a stellar corpse too massive to be a quark star, yet too light to collapse into a black hole. It crushes and burns the quarks inside, generating an outward radiation pressure that acts against gravity. Interestingly, the interior is predicted to be a 'Big Bang factory,' forcing the electromagnetic and weak forces to collapse as one (hence 'electroweak') — a condition that hasn't been seen elsewhere in our universe since moments after the Big Bang." The article notes that the first calculations on electroweak stars pegged them as an intermediate stage on the way to a black-hole collapse, lasting at most a second. The new calculations suggest that electroweak stars could persist for millions of years.
This discussion has been archived. No new comments can be posted.

Exotic "Electroweak" Star Predicted

Comments Filter:
  • The article notes that the first calculations on electroweak stars pegged them as an intermediate stage on the way to a black-hole collapse, lasting at most a second. The new calculations suggest that electroweak stars could persist for millions of years.

    As always with physics, you have a pretty huge margin of error...

    • Re: (Score:2, Insightful)

      by Eternauta3k ( 680157 )

      As always with cosmology, you have a pretty huge margin of error

      Fixed that for you.
      Seriously, that's just a few orders of magnitude off. Seen the error bars on intergalactic distances?

      • Astronomy in general has a large amount of error simply because all the measurements come from observations rather than laboratory controlled experiments.
      • by bcrowell ( 177657 ) on Saturday April 03, 2010 @04:01PM (#31718684) Homepage

        >> As always with physics, you have a pretty huge margin of error.

        > As always with cosmology, you have a pretty huge margin of error.

        >Fixed that for you. Seriously, that's just a few orders of magnitude off. Seen the error bars on intergalactic distances?

        Despite the parent post's snideness, the GP is basically right. Parent poster: (1) It's not just "a few" order of magnitude off, it's 14 orders of magnitude. That's a lot, by any standard in science. (2) The paper [arxiv.org] is not about cosmology, it's about astrophysics. (3) Although this is not about cosmology, your perception of cosmology as a low-precision science is about 15 years out of date. Cosmology is currently enjoying a golden age of high-precision measurements. For example, the Hubble constant is now known to a precision of a few percent, whereas 20 years ago there were still people disagreeing to each other by factors of 2. (4) Intergalactic distances aren't particularly relevant here, but anyway the ladder of cosmic distance scales [wikipedia.org] isn't uncertain to anything like 14 orders of magnitude.

        And by the way, could we let the "fixed that for you" meme die? It's rude, and it's getting old.

        • by Anonymous Coward on Saturday April 03, 2010 @04:11PM (#31718750)

          Step 1. Quote a sentence from parent.
          Step 2. Replace a word from the quote with another one, put it in bold.
          Step 3. Write "Fixed that for you".
          Step 4. Make stuff up, starting the sentence with "Seriously,".
          Step 5. ??
          Step 6. +5 Insightful.

        • Re: (Score:3, Funny)

          by Dan East ( 318230 )

          And by the way, could we let the "fixed that for you" meme die? It's rude, and it's getting old.

          Did it died?

        • It's not just "a few" order of magnitude off, it's 14 orders of magnitude. That's a lot, by any standard in science.

          Not by cosmology's standard, not really. Most estimates about cosmology - from Universe's age to the distance to nearest stars - were off by far greater amount until the last century or so, and some of them - such as the size of the Universe - still could be.

          And by the way, could we let the "fixed that for you" meme die?

          Do not want.

          It's awesome, and it's getting old, as in invincible old mas

          • Most estimates about cosmology - from Universe's age to the distance to nearest stars - were off by far greater amount until the last century or so...

            So at what point in history did scientists believe the age of the universe to be 137.5 uS and the distance to Alpha Centauri 401 m?

            14 orders of magnitude is _enormous_, unless you're talking about the relative strengths of the fundamental forces [wikipedia.org].

      • Ratio of 1 million years to 1 second is about 3x10^13, or 13 orders of magnitude; not a few.

    • by K. S. Kyosuke ( 729550 ) on Saturday April 03, 2010 @03:09PM (#31718330)

      As always with physics, you have a pretty huge margin of error...

      And I've been wondering all the time why they use the logarithmic scale. It makes the errors look smaller!

    • Re: (Score:2, Insightful)

      by oldhack ( 1037484 )
      Yep, could persist for million years, give or take a billion or two.
      • by f2x ( 1168695 )
        I was just thinking the same thing... given the nature of stars, the word persist would indicate something a bit more substantial than "millions of years".
        • For smaller stars, yes, but very massive stars only last for around 10 million years before going supernova. For the most massive ones, the lifetime can be as short as a few million years.
    • by bcmm ( 768152 ) on Saturday April 03, 2010 @03:46PM (#31718582)
      This is not always the case in physics. For example, the differences between the predictions of relativity and Newtonian mechanics are really very insignificant in most cases, but accurate measurement can still tell you which is correct (relativity has agreed with some very, very accurate measurements).

      It doesn't say whether they revised their estimate due to new data or due to finding a mistake, but the latter would be entirely understandable: humans tend to have very little day-to-day experience of exotic matter on which to base a reality check.
      • It doesn't say whether they revised their estimate due to new data or due to finding a mistake, but the latter would be entirely understandable:

        This post further down [slashdot.org] says that the estimate went from ~ 10^-7 to 10^7.

        Could it have just been a sign error, or flipped numerator/denominator in an equation? Curious. :)

      • Re: (Score:1, Informative)

        by Anonymous Coward
        Q.E.D. makes some very precise (and accurate) predictions. GP is wrong.
  • So they predict something that they think hasn't existed in the visible universe for 10 billion years (the universe is only 13.75b years old), and even if it did, we wouldn't be able to detect it.

    Sounds pretty lame to me.
    • by Gerafix ( 1028986 ) on Saturday April 03, 2010 @03:09PM (#31718332)
      Not able to detect it. More weight than a Nomad. Lame.
    • Wrong (Score:4, Insightful)

      by dreamchaser ( 49529 ) on Saturday April 03, 2010 @03:18PM (#31718402) Homepage Journal

      From TFA:

      "At ordinary temperatures it is so incredibly rare that it probably hasn't happened within the visible universe anytime in the last 10 billion years, except perhaps in the core of these electroweak stars and in the laboratories of some advanced alien civilizations."

      If you're going to pretend to quote the article at least try to get it right. It says nowhere that the stars themselves can't exist now. It says that the cores of these stars, if they do exist, have conditions that haven't been seen for perhaps 10 billion+ years.

  • by nedlohs ( 1335013 ) on Saturday April 03, 2010 @03:05PM (#31718314)

    What's a few orders of magnitude between friends...

  • Phew... (Score:5, Funny)

    by The Living Fractal ( 162153 ) <banantarrNO@SPAMhotmail.com> on Saturday April 03, 2010 @03:14PM (#31718372) Homepage
    For a second there I thought this article was about Lady Gaga. You can't imagine how thankful I am that this is not the case.
  • paper (Score:5, Informative)

    by bcrowell ( 177657 ) on Saturday April 03, 2010 @03:41PM (#31718532) Homepage

    Here [arxiv.org] is the scientific paper.

    As a physicist, I feel that this is a little far out. It assumes violation of the conservation laws for baryon number and lepton number. They claim that this nonconservation is actually predicted by a loophole in the standard model, which may be true, but it's never actually been observed -- if anyone observed such a violation experimentally, they'd definitely get the Nobel prize.

    It's also built on a particular model of quark-quark interactions. (The strong nuclear force is not an interaction for which we have an exact formula. All we have is various models of it.) All the predictions are therefore going to be dependent on this model, as well as on the other approximations they have to make. People have predicted other weird objects, such as quark stars, using similar models, and the predictions have turned out to be very hard to pin down in any model-independent way. Some theorists use different methods, and come out with completely different predictions. Nor has any really compelling experimental evidence turned up for quark stars, although there are a couple of candidate objects that seem too dense to be ordinary neutron stars. If there's no solid evidence for quark stars, it seems like quite a stretch to go beyond that and predict things about even more exotic objects. The landscape is littered with predictions of exotic objects along these lines: quark stars, strange stars, black stars, gravastars, fuzzballs, boson stars, q-balls, ...

    They recently revised their estimate of the lifetime of these objects, making it ~10^7 years rather than a fraction of a second (only 14 orders of magnitude different). Even though 10^7 years is fairly long, it's really not very long on cosmic timescales, so we would expect these to be fairly rare and hard to find, even if they did exist.

  • Quashed Optimism (Score:3, Interesting)

    by psnyder ( 1326089 ) on Saturday April 03, 2010 @04:03PM (#31718698)
    I'd love to hear about an observed star like this, but at the same time I'm very skeptical of this prediction. We've created strange quarks in particle accelerators, but they decay in 10^-10 seconds. So the prior theory (that they may exist for a brief instant as a stage in the star's collapse) seems to correlate more closely to actual observation. The new theory suggests a way for the star to obtain equilibrium, keeping the quarks in that state while burning them.

    Hopefully now that they know what to look for, we can turn the prediction into observation.

    ...a very small fraction of the energy will be emitted as electromagnetic radiation (i.e. light), making these objects very hard to detect.

    oh...

    Well then, for the time being I'm more inclined to side with the other guy in the article:

    "It highly implausible that such an electroweak star would exist," said Paolo Gondolo of the University of Utah.

    • Re:Quashed Optimism (Score:5, Informative)

      by bcrowell ( 177657 ) on Saturday April 03, 2010 @04:19PM (#31718810) Homepage

      I'd love to hear about an observed star like this, but at the same time I'm very skeptical of this prediction. We've created strange quarks in particle accelerators, but they decay in 10^-10 seconds. So the prior theory (that they may exist for a brief instant as a stage in the star's collapse) seems to correlate more closely to actual observation. The new theory suggests a way for the star to obtain equilibrium, keeping the quarks in that state while burning them.

      A couple of things to note here. (1) You're discussing this as if this was a calculation predicting the existence of strange quark stars. It's not. Predictions of strange quark stars date back at least a couple of decades. This paper is predicting the existence of something weirder than a strange quark star. (2) The short half-life of strange particles in accelerator experiments is something that the authors of the paper know about; their calculation used the standard model of particle physics, which already describes those short half-lives. There are good reasons [wikipedia.org] to suspect that the situation might be different in bulk matter at high pressure. We just don't know for sure.

To stay youthful, stay useful.

Working...