英科学家发现已知最大恒星，320倍太阳质量

Universe's biggest known star discovered by British astronomers

The heaviest known star – with a mass 320 times greater than the Sun's – has been discovered at the edge of our galaxy by British astronomers.

By Tom Chivers
Published: 12:54PM BST 21 Jul 2010

Scientistsat the University of Sheffield found the stellar giant – named R136a1 – using the European southern Observatory's Very Large Telescope in Chile and data from the Hubble SpaceTelescope.

The star is located in the Tarantula Nebula in the Large Magellanic Cloud, a small "satellite" galaxy which orbits the Milky Way.

Previously, the heaviest known stars were around 150 times the mass of the Sun, and this was believed to be close to the cosmic size limit.

As stars get more massive the amount of energy created in their cores grows at a faster rate than the force of gravity which holds them together. The torrents of energy produced eventually become so powerful that the stars are torn apart.

This is known as the "Eddington Limit", after the British physicist Arthur Eddington who, in 1919, proved Einstein's theory of relativity by showing that light is bent by gravity.

It was believed that the Eddington Limit was reached at around 150 solar masses.

However, R136a1 has been measured at 265 solar masses. Since heavy stars rapidly lose mass as they grow older by converting it into energy, R136a1 has already lost 20 per cent of its mass in its short million-year life. It is believed originally to have been a colossal 320 solar masses.
The Sun, by comparison, has been burning for 4.57 billion years, and has converted only 0.03 per cent of its mass into energy.

The chief researcher in the Sheffield team, Professor Paul Crowther, told Astronomy Now: "Because of their proximity to the Eddington Limit they lose mass at a pretty high rate." This means that they are incredibly bright and hot – R136a1 is believed to have a surface temperature of more than 40,000 degrees Celsius, and is 10 million times brighter than the Sun.

Among the largest known stars previously known were the Pistol Star, between 80 and 150 solar masses, and Eta Carinae, around 100 solar masses. The Pistol Star radiates as much energy in 20 seconds as our Sun does in a year. However, both are utterly dwarfed by the vast new discovery.

According to Astronomy Now, R136a1 gives off more energy than all the stars in the Orion Nebula, and if it were in our solar system would be as much brighter than the Sun as the Sun is than the Moon.

There are four stars in the cluster RCM 136a, where R136a1 sits, with a mass over 150 that of the Sun. Those four stars alone give off half the energy of the entire cluster, which contains 100,000 stars in total.

Hyper-stars like R136a1 are believed to be formed from several young stars merging together, and are only found in the very heart of stellar clusters.

Prof Crowther suspects that this is about as big as stars can get. He says: "Owing to the rarity of these monsters, I think it is unlikely that this new record will be broken any time soon."

The team’s work can be found in the latest issue of Monthly Notices of the Royal Astronomical Society.

http://www.telegraph.co.uk/science/space/7902627/Universes-biggest-known-star-discovered-by-British-astronomers.html

LONDON -- A huge ball of brightly burning gas drifting through a neighboring galaxy may be the heaviest star ever discovered - hundreds of times more massive than the sun, scientists said Wednesday after working out its weight for the first time.

Those behind the find say the star, called R136a1, may once have weighed as much as 320 solar masses. Astrophysicist Paul Crowther said the obese star - twice as heavy as any previously discovered - has already slimmed down considerably over its lifetime.

In fact, it's burning itself off with such intensity that it shines at nearly 10 million times the luminosity of the sun.

"Unlike humans, these stars are born heavy and lose weight as they age," said Crowther, an astrophysicist at the University of Sheffield in northern England. "R136a1 is already middle-aged and has undergone an intense weight loss program."

Crowther said the giant was identified at the center of a star cluster in the Tarantula Nebula, a sprawling cloud of gas and dust in the Large Magellanic Cloud, a galaxy about 165,000 light-years away from our own Milky Way.

The star was the most massive of several giants identified by Crowther and his team in an article in the Monthly Notices of the Royal Astronomical Society.

While other stars can be larger, notably the swollen crimson-colored ones known as red giants, they weigh far less.

Still, the mass of R136a1 and its ilk means they're tens of times bigger than the Earth's sun and they're brighter and hotter, too.

Surface temperatures can surpass 40,000 degrees Celsius (72,000 degrees Fahrenheit), seven times hotter than the sun. They're also several million times brighter, because the greedy giants tear through their energy reserves far faster than their smaller counterparts.

That also means that massive stars live fast and die young, quickly shedding huge amounts of material and burning themselves out in what are thought to be spectacular explosions.

"The biggest live only 3 million years," Crowther said. "In astronomy that's a very short time."

Small lifespans are one of several reasons why these obese stars are so hard to find. Another is that they're extremely rare, forming only in the densest star clusters.

Astronomers also have a limited range in which to look for them. In clusters that are too far away, it isn't always possible to tell if a telescope has picked up on one heavyweight star or two smaller ones in close proximity.

In this case, Crowther's team re-examined previously known stars to see if they could find an accurate measurement of their weight. The team reviewed archival data from the Hubble Space Telescope and gathered new readings from the European Southern Observatory's Very Large Telescope at Paranal in Chile.

Scientists who weren't involved in the find said the results were impressive, although they cautioned it was still possible, although unlikely, that scientists had confused two very close stars for a bigger, single one.

"What they're characterizing as a single massive star could in fact be a binary system too close to be resolved," said Mark Krumholz, an astronomer at the University of California, Santa Cruz.

Both he and Phillip Massey, an astronomer with the Lowell Observatory in Arizona, also cautioned that the star's weight had been inferred using scientific models and that those were subject to change.

But both scientists said the authors had made a strong case, arguing that the solar material being thrown off from feuding stars in a binary system would produce much more powerful X-rays than have been detected.

Crowther acknowledged that R136a1 could have a partner, but he said it was likely to be a much smaller star, meaning that the star's its birth weight was still considerable - perhaps 300 solar masses instead of 320.

出处有图片：http://www.huffingtonpost.com/2010/07/21/r136a1-most-massive-star-_n_653853.html

英国科学家发现最重恒星 质量是太阳250多倍

英国科学家发现已知最重恒星，质量达到太阳质量的３２０倍，比先前确认的最重恒星还重一倍。

新华网7月22日报道 英国科学家发现已知最重恒星，质量达到太阳质量的３２０倍，比先前确认的最重恒星还重一倍。
巨无霸
英国设菲尔德大学天文学家保罗·克劳瑟及其带领的研究小组利用哈勃太空望远镜和欧洲南方天文台甚大望远镜观测数据重新计算后发现，大麦哲伦星系蜘蛛星云内代号为Ｒ１３６ａ１的恒星“体重”创下纪录。
克劳瑟２１日说，Ｒ１３６ａ１诞生时质量达到太阳的３２０倍，表面温度超过４万摄氏度，比太阳热７倍。
Ｒ１３６ａ１还是一颗“耀眼”的恒星，比太阳亮１０００万倍。英国《每日电讯报》打比方说，如果把Ｒ１３６ａ１放进太阳系，它相对太阳的亮度就相当于太阳对月球。
先前已知的最重恒星包括：手枪星，质量相当于８０个到１５０个太阳；船底星座伊塔星，质量大约相当于１００个太阳。它们和Ｒ１３６ａ１相比，都相形见绌。
按照埃丁顿极限，星体质量越大，能发出越多的光，而过度的辐射压力，也将使星体不稳定。质量超过太阳５０倍的星体，不可能稳定。人们普遍认为，１５０倍太阳质量是埃丁顿极限可达上限。
克劳瑟认为，Ｒ１３６ａ１逼近极限，“这一新纪录不可能在短时间内打破”。
迅速瘦身
大质量的恒星释放的能量也更加巨大。以手枪星为例，它２０秒内释放出的能量相当于太阳一年释放能量的总和。在这一过程中，伴随着质量的迅速减少。
克劳瑟说：“星体和人类不一样，它们诞生之初质量巨大，年长后逐渐变轻。Ｒ１３６ａ１已经是一颗中年星体，质量已大幅减少。”
《每日电讯报》说，Ｒ１３６ａ１在短短１００万年时间内消耗掉２０％的质量，现质量相当于２６５个太阳。
相比之下，太阳已经燃烧４５.７亿年，却仅消耗０.０３％的质量转化为能量。
由于质量迅速损失，这些“巨无霸”星体大多短命。
克劳瑟说：“最大的也就能存续３００万年。这在天文学上讲，非常短暂。”
遭遇质疑
Ｒ１３６ａ１惊人的体重也受到科学家质疑。美联社说，在非常遥远的太空，即便高精度的望远镜有时也难以判断发现的究竟是一个“巨无霸”，还是一对距离非常近的双子星。
美国加利福尼亚大学天文学家马克·克鲁姆霍尔茨就质疑说，Ｒ１３６ａ１可能是双子星。
亚利桑那州洛厄尔天文台天文学家菲利普·马西还指出，克劳瑟等人运用科学模型推算星体质量，而模型本身不一定百分百准确。
不过，克鲁姆霍尔茨和马西都同意，如果Ｒ１３６ａ１真是一对双子星，望远镜检测到的Ｘ射线应更强。
克劳瑟说，Ｒ１３６ａ１可能有一个“同伴”，但它的质量会小很多。这意味着Ｒ１３６ａ１诞生之初的质量可能不是３２０个太阳，而是３００个太阳。

http://discover.news.163.com/10/0722/09/6C6FCRBE000125LI.html

了解一下算了..............................

在科学网上看到这个新闻, 正想发的~
http://news.sciencenet.cn/htmlnews/2010/7/234921.shtm

应该说是目前为止最大！
想想大麦哲伦星系多小啊，那些超大的椭圆星系中，不知道会有多大的恒星啊

163 这个翻译确实想让人扁它

这个，在“酷图欣赏”版G兄也发过相似内容的帖子。
我们知道，质量太大的恒星会通过紫外辐射、高速外流、超音速激波及星风等方式来破坏它周围的环境及瓦解星云，另外大质量恒星的巨大的光度产生的辐射压也会驱散星云的。那么如此大的恒星，它是如何保证在它达到如此大的质量之前，其周围环境（星云等）不被驱散的呢？

母星云能产出这么一个“巨无霸”的大胖小子，应该是多胞胎的！

估计以后会出现更大的把？

真大。。。。不敢想。。。不知道还有没有更大的。。