» Views and Movies of the Sun Astronomy

Astronomers have at last found definitive evidence that the universe's first dust - the celestial stuff that seeded future generations of stars and planets - was forged in the explosions of massive stars.

The findings, made with NASA's Spitzer Space Telescope, are the most significant clue yet in the longstanding mystery of where the dust in our very young universe came from. Scientists had suspected that exploding stars, or supernovae, were the primary source, but nobody had been able to demonstrate that they can create copious amounts of dust - until now. Spitzer's sensitive infrared detectors have found 10,000 Earth masses worth of dust in the blown-out remains of the well-known supernova remnant Cassiopeia A.

Space dust is everywhere in the cosmos, in our own neck of the universe and all the way back billions of light-years away in our infant universe. Developing stars need dust to cool down enough to collapse and ignite, while planets and living creatures consist of the powdery substance. In our nearby universe, dust is pumped out by dying stars like our sun. But back when the universe was young, sun-like stars hadn't been around long enough to die and leave dust.

That's where supernovae come in. These violent explosions occur when the most massive stars in the universe die. Because massive stars don't live very long, theorists reasoned that the very first exploding massive stars could be the suppliers of the unaccounted-for dust. These first stars, called Population III, are the only stars that formed without any dust.

Views and Movies of the Sun

Filed under: Sun — admin @ 11:10 pm

Sun Prominence

Sun Prominence This image was acquired from NASA’s Skylab space station on December 19, 1973. It shows one of the most spectacular solar flares ever recorded, propelled by magnetic forces, lifting off from the Sun. It spans more than 588,000 kilometers of the solar surface. In this photograph, the solar poles are distinguished by a relative absence of supergranulation network, and a much darker tone than the central portions of the disk.

X-Ray Image

This is an X-ray image of the Sun obtained on February 21, 1994. The brighter regions are sources of increased X-ray emissions.

Solar Disk in H-Alpha

Solar Disk in H-Alpha This is an image of the Sun as seen in H-Alpha. H-Alpha is a narrow wavelength of red light that is emitted and absorbed by the element hydrogen.

Solar Flare in H-Alpha

Solar Flare in H-Alpha This is an image of a solar flare as seen in H-Alpha.

Solar Magnetic Fields

Solar Magnetic Fields This image was acquired February 26, 1993. The dark regions are locations of positive magnetic polarity and the light regions are negative magnetic polarity.

Sun Spots

Sun Spots This image shows the region around a sunspot. Notice the mottled appearance. This granulation is the result of turbulent eruptions of energy at the surface.

1991 Solar Eclipse

1991 Solar Eclipse This shows the total solar eclipse of July 11, 1991 as seen from Baja California. It is a digital mosaic is derived from five individual photographs, each exposed correctly for a different radius in the solar corona.

1994 Solar Eclipse

1994 Solar Eclipse The following image was taken November 3, 1994, as observed by the High Altitude Observatory White Light Coronal camera from Chile.

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Astronomy