* Astronomy

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RE: eta Carinae

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Using adaptive optics to remove atmospheric blurring, Gemini Observatory released an image today showing previously hidden forensic secrets at the ballistic core of the Homunculus Nebula, part of the explosive Eta Carinae star system.
The infrared image, revealed at the 215th American Astronomical Society meeting in Washington DC, is a high-resolution view of the complex tendrils and puffs of glowing gas and dust surrounding the violent and convulsive death of an exceptionally massive, short-lived star.

Image Credit:J.C. Martin et. al., Gemini Observatory/AURA

Eta Carinae as imaged by the Gemini South telescope in Chile with the Near Infrared Coronagraphic Imager (NICI) using adaptive optics to reduce blurring by turbulence in the Earth's atmosphere. In this image the bipolar lobes of the Homunculus Nebula are visible with the never-before imaged "Little Homunculus Nebula" visible as a faint blue glow, mostly in the lower lobe. The Butterfly Nebula is visible (region circled) as the yellowish glow with dark filamentary structure close to, and mostly below/left, of the central star system (the central star system appears as a dark spot due to the coronagraphic blocking (occulting) disk used to eliminate the star's bright glare). This image is a colour composite using three infrared filters:

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Credit: Eduardo Fernández-Lajús et al.

This light curve depicts the visual apparent brightness of Eta Car since 1822 up to date.
Eta Carinae is one of the most massive and luminous stars in our galaxy, and is suspected to be a binary system with a period of 5.54 years. In 2003.5 it was expected to undergo an X-ray eclipse.

Position(2000): RA 10 45 03.591, Dec -59 41 04.26

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Observers have reported that Eta Carinae has brighten.

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Eta Carinae optical 2009.0 event

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Eta Carinae

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A new "event" was predicted for 11 January 2009. the uncertainty is less than 2 days, due to the excellent monitoring made at the Pico dos Dias Observatory in 2003. The next event offers the best perspective for the ground-based telescopes, until the year 2020! A large network of observers in Argentina, Chile and Brazil is working and the preliminary results indicate that everything is following the predictions. This is a confirmation of the binarity nature of the central object. However, new details are showing up, indicating that the periastron passage is traumatic, as opposed to a simple eclipse.
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IAUC 9012 (Subscription)

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Obesity has apparently reached galactic proportions, apparently - even stars have a problem with over-eating, a stellar mystery that has astronomers asking how some stars grow to be so large. A supercomputer scientist team may have the answer, in a demonstration of how nature can take something simple and make it complex.
About 7,500 light years away resides the star Eta Carinae, first noted in a star catalogue by the venerable astronomer Edmond Halley (best known for Halley's comet) in 1677. Since then, the star has bedazzled astronomers by brightening every century or so, most notably in an 1843 outburst that briefly made it the brightest star in the sky, despite its distance (one light year is about 5.9 trillion miles.) To add to the mystery, the star is a porker, about 120 times heavier than the sun, embedded in a star-forming gas cloud called the Carina Nebula.
University of California, Berkeley, astronomer Nathan Smith proposed last year in the journal Nature that 1843 outburst arose from an explosion deep in the star that spat out a blob of star-stuff perhaps ten times as heavy as the sun. The report counts the explosion as a newly-discovered mechanism for how gigantic stars, which only live a million years or so, start to break down prior to their final implosion (the process that forms black holes.)

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Photograph courtesy NASA

A Hubble Space Telescope image of the massive star Eta Carinae shows two large bubbles of gas expanding in opposite directions from its bright central region.
The star`s sudden brightening in 1843 was caused by a mysterious explosion of a type never before identified - not stellar winds as previously thought, experts said in September 2008.

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Title: A Blast Wave from the 1843 Eruption of Eta Carinae
Authors: Nathan Smith

Very massive stars shed much of their mass in violent precursor eruptions as luminous blue variables (LBVs) before reaching their most likely end as supernovae, but the cause of LBV eruptions is unknown. The 19th century eruption of Eta Carinae, the prototype of these events, ejected about 12 solar masses at speeds of 650 km/s, with a kinetic energy of almost 10^50 ergs. Some faster material with speeds up to 1000-2000 km/s had previously been reported but its full distribution was unknown. Here I report observations of much faster material with speeds up to 3500-6000 km/s, reaching farther from the star than the fastest material in earlier reports. This fast material roughly doubles the kinetic energy of the 19th century event, and suggests that it released a blast wave now propagating ahead of the massive ejecta. Thus, Eta Car's outer shell now mimics a low-energy supernova remnant. The eruption has usually been discussed in terms of an extreme wind driven by the star's luminosity, but fast material reported here suggests that it was powered by a deep-seated explosion rivalling a supernova, perhaps triggered by the pulsational pair instability. This may alter interpretations of similar events seen in other galaxies.

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