青年中文atomic clocks的意思
atomic clocks中文翻譯:
原子鐘
相似詞語短語
atomic clock───原子鐘
ammonia clocks───氨鐘
Atmos clocks───空氣鐘
acorn clocks───橡子鐘
atomic bombs───原子彈(atomicbomb的復數)
time clocks───打卡鐘,出勤記錄鐘
atomic cocktails───原子雞尾酒
雙語使用場景
That simple idea was the incentive to develop laser cooling and atomic traps, which in turn led to impressive improvements in the precision of atomic clocks.───這一簡單的想法源于激光冷卻的發展和原子勢阱的發現,最后甚至導致了精密計時的原子鐘的出現。
As for larger atomic clocks, current models measure the interaction of microwaves with electrically charged atoms, or ions, to measure one second.───對于較大的原子鐘而言,當前的方法是以測量帶電原子或離子發出的微波干涉方法確定一秒種的長度。
The experiments are a significant step toward next-generation "atomic clocks" based on optical rather than microwave frequencies.───此實驗對下一代“原子鐘”的產生是重要的一步,下一代“原子鐘”將是基于光頻而不再是微波頻率。
Around the world, time is now monitored by highly reliable atomic clocks that are coordinated to produce a universal time standard.───當今世界,時間在很大程度上是由提供宇宙同步時間的原子鐘來監測。
To understand why timekeeping has suddenly lurched into high gear, it helps to know a little about how atomic clocks work.───若想要了解計時器為何突然倒向高科技陣營,我們必須稍微認識一下原子鐘是如何運作的。
These carry atomic clocks that have to run at a different speed to those on the ground because gravity is greater there.───衛星攜帶的原子鐘必須和地面的運行速度不一樣,因為那里的重力更強。
Then along came atomic clocks, following the beat of quantum mechanics, the laws that govern the energies of electrons bound to nuclei.───伴隨著量子力學的橫空出世,核子與電子間的作用法則被揭示,之后就輪到原子鐘獨領風騷了。
The current generation of portable atomic clocks is roughly the size of a pack of playing cards.───當代的便攜電子鐘大約有一個撲克牌盒那么大。
One of these shifts is that the atomic clocks on Earth will soon need constant adjustment.───其中一個轉變就是地球上的原子時鐘將很快需要不斷地校準。
英語使用場景
These transmit coded signals containing information from highly accurate atomic clocks on board.
John Kitching and colleagues at the National Institute of Standards and Technology (NIST) in Boulder, Colo., are designing atomic clocks that range in size from a sugar cube to a grain of rice.
Today's standard atomic clocks vibrate at microwave frequencies, about 9 billion cycles per second.
Atomic clocks rely on regular oscillations of caesium atoms to keep time and are extremely accurate.
Optical atomic clocks oscillate much faster, at about 500, 000 billion cycles per second, and thus divide time into smaller units.
Other more recent tests involve direct comparison of the time-keeping of atomic clocks or of masers.
A spin-off of NIST's miniature atomic clocks, NIST's magnetic mini-sensors were first developed in 2004.
It also has the advantage of reducing many systematic effects present in atomic clocks.
The experiments are a significant step toward next-generation "atomic clocks" based on optical rather than microwave frequencies.