我們剛剛得到銀河系年齡的最新估計(jì)
Like many other spiral galaxies in the Universe, the Milky Way Galaxy consists of two disk-like structures – the thin disk and the thick disk. The thick disk, which envelopes the thin disk, contains about 20 percent of the Milky Way's stars and is thought to be the older of the pair based on the composition of its stars (which have greater metallicity) and its puffier nature.
像宇宙中許多其他螺旋星系一樣,銀河系由兩個(gè)盤狀結(jié)構(gòu)組成——薄圓盤和厚圓盤。這個(gè)厚厚的圓盤包裹著這個(gè)薄薄的圓盤,它包含了銀河系大約20%的恒星,根據(jù)它的恒星組成(有更大的金屬豐度)和膨脹的性質(zhì),它被認(rèn)為是這對(duì)恒星中較老的一個(gè)。
However, in a recent study, a team of 38 scientists led by researchers from Australia's ARC Centre of Excellence for All Sky Astrophysics in Three Dimensions (ASTRO-3D) used data from the now-retired Kepler mission to measure starquakes in the Milky Way's disk.
然而,在最近的一項(xiàng)研究中,一個(gè)由澳大利亞ARC卓越中心(ARC Centre of Excellence for All Sky Astrophysics in Three - Dimensions)的研究人員領(lǐng)導(dǎo)的38名科學(xué)家組成的團(tuán)隊(duì),使用了現(xiàn)已退役的開普勒(Kepler)任務(wù)的數(shù)據(jù)來(lái)測(cè)量銀河系圓盤上的星震。
From this, they have revised the official estimates on the age of the Milky Way's thick disk, which they conclude is around 10 billion years old.
據(jù)此,他們修正了官方對(duì)銀河系厚盤年齡的估計(jì),他們得出的結(jié)論是它大約有100億年的歷史。
The study which describes their findings – titled "The K2-HERMES Survey: age and metallicity of the thick disc" – recently appeared in the Monthly Notices of the Royal Astronomical Society. The research team was led by Dr. Sanjib Sharma of the Sydney Institute for Astronomy and the ARC Centre of Excellence for All Sky Astrophysics in Three Dimensions (ASTRO-3D) and included members from multiple universities and research institutes.
這項(xiàng)研究描述了他們的發(fā)現(xiàn)——標(biāo)題為“k2 -赫爾墨斯調(diào)查:厚盤的年齡和金屬豐度”——最近發(fā)表在《皇家天文學(xué)會(huì)月刊》上。該研究小組由悉尼天文研究所和ARC三維天體物理學(xué)卓越中心的Sanjib Sharma博士領(lǐng)導(dǎo),成員來(lái)自多個(gè)大學(xué)和研究機(jī)構(gòu)。
To determine the age of the thick disk, Dr. Sharma and his team employed a method known as asteroseismology. This consists of measuring a star's oscillations caused by starquakes, where the crusts of stars undergo sudden shifts similar to Earthquakes.
為了確定厚圓盤的年齡,Sharma博士和他的團(tuán)隊(duì)采用了一種被稱為星震學(xué)的方法。這包括測(cè)量由恒星地震引起的恒星振動(dòng),恒星的外殼經(jīng)歷類似于地震的突然轉(zhuǎn)變。
This process allows researchers to conduct "galactic-archaeology", where they are able to look back in time to the formation of the Milky Way (over 13 billion years ago).
這個(gè)過(guò)程使研究人員能夠進(jìn)行“銀河考古學(xué)”,在那里他們能夠回顧銀河系形成的時(shí)間(超過(guò)130億年前)。
As Dennis Stello – an associate professor at the University of New South Wales and a co-author on the study – explained, this allowed them to determine a star's internal structures:
正如新南威爾士大學(xué)副教授、該研究的合著者丹尼斯·斯泰羅解釋的那樣,這使得他們能夠確定恒星的內(nèi)部結(jié)構(gòu):
The quakes generate soundwaves inside the stars that make them ring, or vibrate. The frequencies produced tell us things about the stars' internal properties, including their age. It's a bit like identifying a violin as a Stradivarius by listening to the sound it makes.
“地震在恒星內(nèi)部產(chǎn)生聲波,使它們發(fā)出聲音,或者振動(dòng)。產(chǎn)生的頻率告訴我們恒星的內(nèi)部屬性,包括它們的年齡。這有點(diǎn)像通過(guò)聽小提琴發(fā)出的聲音來(lái)辨別它是不是斯特拉迪瓦里琴。”
It is important to note that astronomers are not able to detect actual "sounds" generated by stars. Instead, movements within a star's interior are measured based on changes in a star's brightness.
需要注意的是,天文學(xué)家無(wú)法探測(cè)到恒星發(fā)出的實(shí)際“聲音”。相反,恒星內(nèi)部的運(yùn)動(dòng)是根據(jù)恒星亮度的變化來(lái)測(cè)量的。
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