英语释义

• a shared orientation leading to mutual understanding;

  "they are on the same wavelength"

• the distance (measured in the direction of propagation) between two points in the same phase in consecutive cycles of a wave

片语

Dual wavelength双波长

wavelength router波长路由器

Dominant Wavelength[光] 主波长；[电子] 支配彩色的波长

on the same wavelength观点一致；有同感

cutoff wavelength[电子] 截止波长

wavelength conversion波长转换

dominant wavelength[光] 主波长；[电子] 支配彩色的波长

Central wavelength中心波长

spinodal wavelengthSpinodal波长

wavelength division波分

wavelength range波长范围

resonant wavelength[电子] 共振波长

wavelength shift波长位移；波长偏移

wavelength resolved光谱分辨

excitation waVelength激发波长

英汉例句

• Those lasers produce one wavelength of light that doesn「t stop unless the power is cut.

  这些激光器产生一个具有波长的光，它不会停止，除非电源被切断。

• When we measure its momentum, we are treating it as a wave, meaning we can know the amplitude of its wavelength but not its location.

  而当我们测量器动量时，我们将其当做波，这意味着我们能知其波长的振幅，但却无法获知其位置。

• Each crystal structure consists of alternating layers of silicon dioxide and a polymer material, so that the spacing between similar layers matches the wavelength of phonons.

  每个晶体结构由相间的二氧化硅层和高分子聚合材料层组成，相同材料层之间的间距与声子的波长相匹配。

• The quantum seas part, and a laser at the wavelength that should have been absorbed passes through unfettered.

  大量的量子进行分离，在这个本应被吸收的波长上的激光束便毫无阻挡地通过。

• Instead, a single wavelength can be selected to produce the X-ray equivalent of a pure-colour beam of light.

  事实上单独某一个波长的射线就可以产生好象一束单色光一样的纯凈的伦琴射线。

• Specifically, what is going on here is the Earth」s atmosphere scatters light in the blue and violet wavelength range, so the remaining wavelengths of light appear yellow.

  更準确一些的说，地球大气层把蓝色和紫色的波长范围进行散射，所以光线中剩下的波长就显现出了黄色。

• And this, depending on the wavelength of the light concerned (and thus its colour), causes some colours to be amplified while others are cancelled out.

  并且这种依靠光的波长(光的颜色)的镜子，会造成一些特定颜色的光被放大，而另外一些会被减弱。

• But because the laser beam is comprised of a single wavelength of light, the conversion to electricity is much more efficient than converting multiple wavelengths of sunlight to energy.

  但由于镭射光束是有一单一波长的光组成，它的转化就要比拥有多种光波的太阳能转化成能量效率更高。

• What de Broglie is saying we can know the wavelength of any matter at all, as long as we know its mass and it「s velocity.

  通过德布罗意所说的,只要我们知道了,它的质量和速度，我们可以知道,任何物质的波长。

• Red aurora are generated by light emitted at a longer wavelength (0.630 micrometers), and other colors such as blue and purple are also sometimes observed.

  红色的极光是由较长波长(0.630微米)的发出光引起的，有时也会观察到其他诸如蓝色和紫色的极光。

• As another example, cosmic rays have a wavelength of lessthan a millionth of a millionth of an inch, while some radio waves have wave lengths of over a mile!

  再举另外一个例子，宇宙射线的波长不及万亿亿分之一英寸，而某些无线电波的波长却超过一英里！

• General relativity predicts that the wavelength of this light will be shifted by a small amount due to the galaxies」 mass, in an effect called gravitational redshift.

  广义相对论预言这种光的波长会因这些星系的质量而有少量的偏移，这种效应称为引力红移。

• When light of an appropriate wavelength strikes the solar cell, the individual packets of energy, called photons, knock some paired-up electrons free from their holes.

  此时，如果适当波长的日光射到太阳能电池上，被称作光子的每个独立体便鼓着气力，将一部分的电子撞出「孔」洞。

• In a photonic crystal the elements are about the same size as the wavelength of light-a few hundred nanometres (billionths of a metre).

  在光子晶体中，其成分与光的波长是同样的大小——几百纳米(一米的十亿分之一)。

• For good reception, the length of an antenna needs to correspond with the wavelength of the radiation it is receiving.

  为了很好地接受信号，天线的长度需要对应它接受的信号的波长。

• Then they searched for light on different wavelength and found many more sources of energy - indicating distant galaxies - that had not been spotted using the traditional technique.

  然后他们又根据不同的波长搜索紫外线，并且发现了许多额外的能量来源，这就表明了存在许多用传统的方法没能发现的遥远的星系。

• Raman spectroscopy works by shining a laser light onto a molecule and then collecting and analysing the wavelength and intensity of the resulting scattered light.

  拉曼光谱的工作原理是使用一束激光照射到原子上，然后收集并分析产生的散射光的波长和密度。

• Bright light which incorporates short wavelength rays - that is sunlight - is known to have the greatest impact on our body clocks and our mood.

  众所周知，明亮光线是种波长短的射线，如太阳光，对我们生物时钟和我们心情都有重大影响。

• These techniques include Raman scattering, in which light returns with a shift in wavelength as a result of atomic or molecular laser excitation.

  这项技术包含拉曼散射，这种散射指反射光会因为原子或分子的激发而有一个波长上的移动。

• And especially when we consider it, what tends to be important is the size of wavelength in relationship to its environment.

  特别是当我们考虑它的时候，波长的量级和它所处环境，的关系就显得非常重要。