... tiny membrane-wrapped bundles, called dense-core vesicles. The rate at which these molecules are secreted ... conditions. Although worms with downregulated secretion from dense-core vesicles are better at combating infection ...
... . A pulsar is a rapidly spinning neutron star, the dense core left behind after a supernova explosion. Most of the 1,800 known pulsars were found through their periodic ...
A superbright explosion 1.5 billion light-years from Earth may be the best known example of a rare type of star death that leaves no black hole or dense core behind, astronomers say.
... and dust. In the earliest stages, material coalesces under the influence of gravity into so-called "dense cores," which, because they absorb optical light ...
... their discoveries at the American Astronomical Society's meeting in Washington, DC. Pulsars are neutron stars -- the dense cores left after a massive star has exploded ...
... the question of how initial asymmetries, which emerge deep in the dense core during the very early stages ... dimensions, from the first milliseconds after the explosion is triggered in the core to a time three hours later, when the shock ...
... light that is scattered by unexpectedly large grains of dust, which the astronomers have termed "coreshine" -- probes the dense cores where stars are born ...
... image are probably the glows from molecular hydrogen in outflows from young stars. Monoceros R2 has a dense core, no more than two light-years ...
... survey allows these objects to be picked out easily. Dense cores of dust and gas were found with temperatures as low as just seven degrees above absolute zero ...
... up the walls of the container and over the edge," said Heinke. Heinke says the core of the neutron star also contains a superconductor, a perfect ... years from Earth. A neutron star is the extremely dense core left behind from an exploding star ...
... the presence of six possible neutron stars, the dense cores often left behind after stars explode in supernovas, when previous observations had only detected one neutron ...
... the heating needed to coax scandium to form dense core structures – although the solid mix ... , but their thickness is not uniform. What's remarkable, though, is that when a core is thicker than the average, the shell is thinner than the average ...
... collapses gravitationally, first into clumps, then into dense cores, each of which can then begin to further ... such a 'pristine' clump of gas that may be starting to form dense cores is a key to gaining a fuller understanding ...
... , in which a companion star orbits the remains of a collapsed star. These collapsed stars form either a dense core called a neutron star or a black ...
... -Smithsonian Center for Astrophysics). Type Ia supernovae are known to originate from white dwarfs -- the dense cores of dead stars. White dwarfs ...
