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哈勃拍到14颗失控恒星高速冲过星际气体

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zheng123 发表于 2009-1-9 08:44 | 显示全部楼层 |阅读模式 来自: 中国–上海–上海 电信/鹏博士宽带
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动手做 发表于 2009-1-9 09:00 | 显示全部楼层 来自: 中国–贵州–黔南布依族苗族自治州 电信
很漂亮,很壮观啊
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六六六 发表于 2009-1-9 09:02 | 显示全部楼层 来自: 中国–湖北–恩施土家族苗族自治州 电信
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霓虹彩云 发表于 2009-1-9 09:44 | 显示全部楼层 来自: 中国–上海–上海–普陀区 电信
失控恒星挺漂亮的。
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fengsheng 发表于 2009-1-9 10:06 | 显示全部楼层 来自: 中国–广东–广州 广州恒汇网络通信有限公司
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冰子 发表于 2009-1-9 10:17 | 显示全部楼层 来自: 中国–北京–北京 教育网/北京师范大学教育网
感觉很奇怪,这些失控恒星以如此高速运动,难道不会与其他恒星发生碰撞吗?
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Lian 发表于 2009-1-9 10:19 | 显示全部楼层 来自: 中国–河南–郑州 联通
也不知道在失控之前它们是由谁控制的?
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wlbx 发表于 2009-1-9 10:50 | 显示全部楼层 来自: 中国–广西–柳州–鱼峰区 联通
也不知道在失控之前它们是由谁控制的?

Lian 发表于 2009-1-9 10:19

其实没有一颗恒星是在我们控制之中的。不过如果非要算的话可以算在他们恒星系的控制中吧。
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一分半 发表于 2009-1-9 12:22 | 显示全部楼层 来自: 中国–上海–上海 电信
这种高速度的恒星如果遇到超大质量的恒星还有没有可能被它们的重力捕获而停止前进,形成新的双星系统?或者只是改变行进方向?
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q5968661 发表于 2009-1-9 13:53 | 显示全部楼层 来自: 中国–福建–厦门 电信
Invading Stars Faster Than Speeding Bullet
Written by Nancy Atkinson

A team of astronomers looking for pre-planetary nebulae using the Hubble Space Telescope instead came across some renegade stars screaming through space. These runaway stars are moving along at 50 km/s (112,000 miles an hour), and have traveled an estimated 160 light years from where they originated. “We think we have found a new class of bright, high-velocity stellar interlopers,” says astronomer Raghvendra Sahai from JPL. “Finding these stars is a complete surprise because we were not looking for them. When I first saw the images, I said ‘Wow. This is like a bullet speeding through the interstellar medium.’ Hubble’s sharp ‘eye’ reveals the structure and shape of these bow shocks.”

Just as a speedboat on a lake creates a wake, as these speedy stars plow through the interstellar "ocean" they create brilliant bow shocks as streams of matter flowing from the stars slam into the surrounding dense gas.

So far, 14 of these runaway stars have been found. What kind of stars are they? Astronomers can only estimate the ages, masses, and velocities of these renegade stars. The stars appear to be young — just millions of years old. Their ages are inferred from their strong stellar winds. Most star produce such winds either when they are very young or when they are dying, and Sahia said it is clear they are not dying. Massive dying stars produce flowing clouds of ionized gas around them and that type of gas is not around these interlopers and old stars are almost never found near dense interstellar clouds.

They appear to be medium-sized stars that are a few to eight times more massive than the sun.
The research team believes the interloper stars were dynamically ejected from their natal environments which were probably massive star clusters. There are two way this could have happened. One possible scenario is that a star in a binary system exploded as a supernova and the partner got kicked out. Another possibility is a collision between two binary star systems or a binary system and a third star. One or more of these stars could have picked up energy from the interaction and escaped the cluster.

Depending on their distance from Earth, the bullet-nosed bow shocks could be 100 billion to a trillion miles wide (the equivalent of 17 to 170 solar system diameters, measured out to Neptune’s orbit). The bow shocks indicate that the stars are traveling fast, more than 112,000 miles an hour (more than 180,000 kilometers an hour) with respect to the dense gas they are plowing through, which is roughly five times faster than typical young stars.

Runaway stars have been seen before. The Infrared Astronomical Satellite (IRAS), which performed an all-sky infrared survey in 1983, spied a few similar-looking objects. The first observation of these objects was in the late 1980s. But those stars produced much larger bow shocks than the stars in the Hubble study, suggesting that they are more massive stars with more powerful stellar winds.

“The stars in our study are likely the lower-mass and/or lower-speed counterparts to the massive stars with bow shocks detected by IRAS,” Sahai explains. “We think the massive runaway stars observed before were just the tip of the iceberg. The stars seen with Hubble may represent the bulk of the population, both because many more lower-mass stars inhabit the universe than higher-mass stars, and because a much larger number are subject to modest speed kicks.”

Astronomers have not spotted many of these stellar interlopers before because they are hard to find. “You don’t know where to look for them because you cannot predict where they will be,” Sahai says. “So all of them have been found serendipitously, including the 14 stars we found with Hubble.”

“One of the questions that these very showy encounters raise is what effect they have on the clouds,” says team member Mark Morris of the University of California, Los Angeles. “Is it an insignificant flash in the pan, or do the strong winds from these stars stir up the clouds and thereby slow down their evolution toward forming another generation of stars?”

Sahai and his team used Hubble’s Advanced Camera for Surveys to examine 35 objects that appeared as bright infrared sources in the IRAS archive. The team is planning follow-up studies to search for more interlopers, as well as study selected objects from this Hubble survey in greater detail in order to understand their effects on their environment.

Source: NASA, AAS Press Conference

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夜的眼睛 发表于 2009-1-9 14:34 | 显示全部楼层 来自: 中国–山东–烟台 联通
7# Lian [/b


受万有引力控制吧
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魔仙の蓝儿 发表于 2009-1-9 17:34 | 显示全部楼层 来自: 中国–广东–深圳 电信
失控de真好看啊~~
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紅色狂想 发表于 2009-1-9 18:09 | 显示全部楼层 来自: 中国–河南–驻马店 联通
只有愛情讓它失控!
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xuanyuan14.leo 发表于 2009-1-9 20:27 | 显示全部楼层 来自: 中国–江苏–南京 联通
LS可真有想象力。
不过上帝动了情,众多恒星可能都要失控了。
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