Tag: astronomy

NASA Reveals Incredible View Inside Superstar Eta Carinae

New findings include Hubble Space Telescope images that show decade-old shells of ionized gas racing away from the largest star at a million miles an hour, and new 3-D models that reveal never-before-seen features of the stars’ interactions.

Eta Carinae is a binary system containing the most luminous and massive star within 10,000 light-years. A long-term study led by astronomers at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, combined data from NASA satellites, ground-based observing campaigns and theoretical modeling to produce the most comprehensive picture of Eta Carinae to date. New findings include Hubble Space Telescope images that show decade-old shells of ionized gas racing away from the largest star at a million miles an hour, and new 3-D models that reveal never-before-seen features of the stars’ interactions.

Located about 7,500 light-years away in the southern constellation of Carina, Eta Carinae comprises two massive stars whose eccentric orbits bring them unusually close every 5.5 years. Both produce powerful gaseous outflows called stellar winds, which enshroud the stars and stymy efforts to directly measure their properties. Astronomers have established that the brighter, cooler primary star has about 90 times the mass of the sun and outshines it by 5 million times. While the properties of its smaller, hotter companion are more contested, Goddard’s Ted Gull and his colleagues think the star has about 30 solar masses and emits a million times the sun’s light.

At closest approach, or periastron, the stars are 140 million miles (225 million kilometers) apart, or about the average distance between Mars and the sun. Astronomers observe dramatic changes in the system during the months before and after periastron. These include X-ray flares, followed by a sudden decline and eventual recovery of X-ray emission; the disappearance and re-emergence of structures near the stars detected at specific wavelengths of visible light; and even a play of light and shadow as the smaller star swings around the primary.

During the past 11 years, spanning three periastron passages, the Goddard group has developed a model based on routine observations of the stars using ground-based telescopes and multiple NASA satellites. According to this model, the interaction of the two stellar winds accounts for many of the periodic changes observed in the system. The winds from each star have markedly different properties: thick and slow for the primary, lean and fast for the hotter companion. The primary’s wind blows at nearly 1 million mph and is especially dense, carrying away the equivalent mass of our sun every thousand years. By contrast, the companion’s wind carries off about 100 times less material than the primary’s, but it races outward as much as six times faster.

The images and video on this page include periastron observations from NASA’s Rossi X-ray Timing Explorer, the X-Ray Telescope aboard NASA’s Swift, the Hubble Space Telescope’s STIS instrument, and computer simulations.

New Photo Shows Powerful Jets on Mars-Bound Comet C/2013 A1

Comet C2013 A1NASA recently released images of comet C/2013 A1 that will pass within 84,000 miles of Mars — less than half the distance between Earth and our moon – on October 19, 2014.

Comet C2013 A1NASA recently released images of comet C/2013 A1 that will pass within 84,000 miles of Mars — less than half the distance between Earth and our moon – on October 19, 2014.

The image on the left, captured March 11 by NASA’s Hubble Space Telescope, shows the comet at a distance of 353 million miles from Earth.

Hubble can’t see C/2013 A1’s icy nucleus because of its small size, and the nucleus is surrounded by a glowing dust cloud that measures roughly 12,000 miles across. The left image is the comet as it appears to Hubble, and the right image has been processed to show see through the comet’s coma, revealing two jets of dust being blasted off the surface.

The comet was observed as Earth was crossing through it’s path around the Sun. This positioning of the two bodies allowed astronomers to determine the speed of the dust coming off the nucleus.

“This is critical information that we need to determine whether, and to what degree, dust grains in the coma of the comet will impact Mars and spacecraft in the vicinity of Mars,” said Jian-Yang Li of the Planetary Science Institute in Tucson, Arizona.

Discovered in January 2013 by Robert H. McNaught at Siding Spring Observatory, the comet is falling toward the sun along a roughly 1 million year orbit and is now within the radius of Jupiter’s orbit. The comet will make its closest approach to our sun on Oct. 25, at a distance of 130 million miles – well outside of Earth’s orbit. The comet is not expected to become bright enough to be seen by the naked eye.

More: National Geographic 

HR 5171 A: The Largest Yellow Star Ever Discovered

HR 5171 A yellow hypergiant star

The European Southern Observatory’s Very Large Telescope (VLT) has discovered the largest known yellow hypergiant star – HR 5171 A. It is one of the 10 largest stars now know, measuring 1200 times the diameter of the Sun and one million times brighter.

HR 5171 A yellow hypergiant star
via ESO

The European Southern Observatory’s Very Large Telescope (VLT) has discovered the largest known yellow hypergiant star – HR 5171 A. It is one of the 10 largest stars now know, measuring 1200 times the diameter of the Sun and one million times brighter.

Chart of the size of the star Betelgeuse compared to the Sun and planets of the solar system,

As another point of comparison, it is 50% larger than the famous red supergiant Betelgeuse.

HR 5171 A starfield showing the largest yellow supergiant start
via ESO

Located 12,000 light years form Earth, the star HR 5171 A is part of an unusual double star system. Its binary partner is so close to it that the two stars actually touch. Together, the system resembles the shape of a peanut.

Yellow hypergiant stars like HR 5171 A are very rare, with only about 12 known to exist in our Milky way galaxy. Their instability means that they expel materials outwards, forming a glowing atmosphere around the core star.

Read more at ESO.org

Astronomers Discover Oldest Star in the Universe

The Australia National University

Astronomers at the Australian National University have discovered the oldest known star in the universe. The star, called SMSS J031300.362670839.3, is 13.8 billion years old, having formed only several hundred million years after the Big Bang. Located in our own Milky Way galaxy, the star is 6,000 light-years from Earth.

The Australia National University
The Australia National University

Astronomers at the Australian National University have discovered the oldest star in the universe. The star, called SMSS J031300.362670839.3, is 13.8 billion years old, having formed only several hundred million years after the Big Bang. Located in our own Milky Way galaxy, the star is 6,000 light-years from Earth.

The star was formed from the remnants of a low-energy supernova. That supernova resulted from a primordial star 60 times more massive than the Sun.

According to lead scientist Stefan Keller, of the ANU Research School of Astronomy and Astrophysics, the lack of any detectable level of iron in the spectrum of light emerging from the star was a major indicator of its age. Because iron is formed within stars themselves, the destruction and successive rebirth of stars enriches them with more and more iron content. The lower the iron content in a star’s light spectrum, the older it is.

Keller and his team found SMSS J031300.362670839.3 by using the ANU SkyMapper telescope. SkyMapper is surveying the sky at the Siding Spring Observatory in Australia to produce the first-ever digital map of the sky in the Southern Hemisphere. They confirmed their observations using the Magellan telescope in Chile.

The full results are detailed in the journal Nature.

Source: Space.com