ligo

ligo

美 　英

• 網絡激光干涉引力波天文臺；重力波觀測臺；引力波觀測激光干涉儀

例句

In LIGO land we've all been running full steam for a while, but it's time for an update.

在LIGO的土地上我們開足馬力已經有一段時間了，到了升級的時候了。

LIGO -- pictured below -- is a joint project between scientists at MIT, Caltech, and many other colleges and universities.

LIGO（如下圖）是麻省理工大學（MIT）、加州理工學院（Caltech）和很多其他大學、學院的聯合項目。

This question is under discussion between the LIGO and GEO labs, and the LIGO Scientific Collaboration.

這個問題正在LIGO和GEO實驗室以及LIGO科學協會中被討論著，還沒有確切的結果。

Physically, LIGO is passive. It sits where it is, and that's it. The "pointing" is done in the processing of the data.

物理上來講，LIGO是被動的。造在哪就在哪了。所謂的“指向”僅存在于數據處理的過程中。

The screen saver will automatically download a tiny portion of the enormous data set that LIGO will collect.

這個屏保將會自動從LIGO收集到的海量數據中下載很小一部分。

This in turn would give LIGO scientists an extra clue as to where to search their data for a gravity wave signal.

這反過來給LIGO的科學家提供了一條在哪尋找引力波信號的新線索。

The two LIGO interferometers work together as one observatory.

這二套LIGO干涉儀在一起工作構成一個觀測所。

But space is very large, and if LIGO scientists could pinpoint their search, they might detect those ripples sooner.

盡管宇宙很大，如果LIGO的科學家能精確定位他們在哪搜索，他們遲早會發現宇宙漣漪。

How are they produced and how are LIGO and other instruments preparing to detect them?

重力波是如何產生的？LIGO及其他儀器準備怎樣測量它們？

We have finished the first complete analysis of the LIGO S3 data set.

我們已經完成了S3數據集的第一輪全面分析。

How will the detectors know if a ripple of gravity passes through the Earth? Per Caltech's official LIGO Website:

觀測器如何探測穿過地球的引力波漣漪呢？加州理工學院LIGO官方網站這樣解釋：