Science
Related: About this forumPossible explanation for radio bursts: Meet the “blitzar”
Yesterday, we brought word of a new kind of mysterious astronomic event, one that created a single, energetic burst of radio waves, but otherwise left no apparent trace. Although there are a lot of things we know about that might cause something similar, none of them are likely to occur with the right frequency or at the right energy to produce the radio bursts. While doing research for that story, however, I came across a paper that describes something we've never seen before, but could hypothetically exist: the blitzar, caused when a neutron star catastrophically collapses into a black hole.
If you're a fan of supernovaeand, really, if you're not, what's wrong with you?you'd know that they tend to leave extraordinarily compact and dense bodies behind. If they're below a critical mass, quantum effects balance out the pull of gravity by keeping neutrons from occupying the same quantum state. Once the mass gets high enoughtechnically, above the "TolmanOppenheimerVolkoff limit"gravity can overwhelm the quantum effects, and collapse both matter and space into a black hole. Typically, this is presented as an either/or: a body is on one side of the mass limit or the other, and its identity is set accordingly.
But that turns out to only be true if there are no other forces acting on the body in question. And, in the real world (or even the somewhat surreal world of the forces interacting in a supernova remnant), there are usually a number of other forces in action. One of these is the fact that the neutron star, when it forms, inherits a lot of the rotational energy of the parent star. Since its radius and mass are tiny in comparison to the star, this means that the neutron star starts out rotating, often extremely rapidly. This rotation could potentially keep a neutron star that's heavier than the TolmanOppenheimerVolkoff limit from collapsing to form a black hole. The authors of the paper describing these bodies, Heino Falcke and Luciano Rezzolla, call them supramassive rotating neutron stars, or SURONs.
(No, I have not contacted the authors to find out if they had Sauron in mind when coming up with the name.)
Many neutron stars also have intense magnetic fields. Over time, through their interactions with the environment, their magnetic fields will put a brake on the rotation, gradually slowing the star. Once rotation slows enough, the TolmanOppenheimerVolkoff limit will kick in, and the SURON will collapse into a black hole in a matter of milliseconds.
http://arstechnica.com/science/2013/07/possible-explanation-for-radio-bursts-meet-the-blitzar/
longship
(40,416 posts)An easy R&K.
Warpy
(111,339 posts)(assuming we don't blow ourselves up or fry all life off this planet) to see how all this stuff is regarded as primitive and wrong.
Given the increasing rate at which our knowledge of what is happeningis growing, figuring out why should proceed just as quickly.
The radio bursts are being treated as singular events. In the future, they might be rethought if they repeat over a period of years, decades, centuries, or millenia.
xocet
(3,872 posts)?