Terahertz pulsed imaging — A potential medical imaging modality?
太赫兹脉冲成像—一种有潜力的医学成像方法?
A high energy pulsed terahertz (THz) laser is studied experimentally.
本文对高能量脉冲太赫兹激光器进行了实验研究。
Terahertz (THz) wave and its unique properties were briefly introduced.
简要介绍了太赫兹波的产生、探测方法和主要特点。
It has a certain significance in the practical application of terahertz imaging.
这对于太赫兹成像的实际应用具有一定的意义。
The lifetime of carriers in the photoconductor also has an impact on the terahertz wave.
材料中的光生载流子寿命对辐射也有一定的影响。
The intensity of terahertz waves tends to saturate with the increase of laser pulse energy.
此外,逐步增大激光脉冲能量,会发现辐射的太赫兹波强度存在一个饱和特性。
The influence of the phase step of the broadband terahertz pulses on the edge contrast is discussed.
讨论了太赫兹脉冲在样品边缘处经历的相位阶跃与边缘对比度的关系。
The high penetration, high resolution and anti-stealth capabilities of terahertz radiation are studied.
对太赫兹辐射具有的高穿透性、高分辨率和反隐身能力进行了研究。
The characteristic of radiated terahertz wave has different diversification when the parameters are changed.
当改变这些参数时,辐射的太赫兹波有不同的特性变化。
In the past decade we have seen significant advances in the production of coherent broad-band Terahertz beams.
过去10年,相干宽带太赫兹光束的生产有了很大的进展。
The research of terahertz source has been addressed in many countries and gotten rapid and very important progress.
世界上许多国家相继开展了太赫兹源技术的深入研究,已取得了重要的进展。
Recently, the new surge of research on terahertz arose from some appearance of new terahertz technology in the word.
近年来,由于一些新的太赫兹技术出现,在世界范围内引起一波研究太赫兹的浪潮。
Terahertz radiation is a newly developed coherent far infrared source, which has been applied in many research fields.
太赫兹辐射是一种新型的远红外相干辐射源,近年来在不同的研究领域得到了广泛的应用。
Moreover, the characteristics and applications of coherent terahertz radiation sources will be introduced in this paper.
除此之外,在本文也介绍此差频技术所产生光源之基本特性以及相关的应用。
Terahertz radiation source is one of key factors limiting terahertz wave used in a very diverse range of practical applications.
太赫兹辐射源是限制太赫兹波在各个领域实际应用的决定性因素之一。
The measurement of terahertz wavelength is more and more urgent and important in the science re- search and practical application.
太赫兹波波长的测量在其科研和实际应用中显得日益迫切和重要。
Now, using a technique called terahertz spectroscopy, scientists discovered that the proteins change the way water molecules behave in the blood.
现在通过超快脉冲辐射技术(terahertz spectroscopy),科学家们发现这种蛋白质能改变血液中水分子的动态。
Terahertz (THz) wave, electromagnetic radiation between far infrared and millimeter wave, has very important academic and application value.
太赫兹波是介于远红外与毫米波之间的一种电磁辐射,有非常重要的学术和应用价值。
The terahertz (THz) spectra of nicotinic acid, nicotinamide and nicotine were studied at room temperature. The time-domain THz spectra were measured.
研究了室温条件下结构相似的烟酸和烟酰胺以及烟碱的太赫兹光谱。
In recent years, the terahertz electromagnetic wave detection technology is developing very rapidly, its application is also becoming wider and wider.
近年来,太赫兹探测技术得到了飞速进展,应用也日趋广泛。
Reflecting the flourishing development of terahertz theoretical research in the past decade, the domain of terahertz applications is extending rapidly.
过去十年来,太赫兹技术理论研究的蓬勃发展带动了太赫兹波应用领域的迅速扩大。
In all the above cases, the utility for transport of terahertz pulses is limited by the high loss, or by the group velocity dispersion of the guided waves.
在上所述的情况中,太赫兹脉冲的有效传输受限于高损耗,或导波的群速度色散。
This paper presents the absorption spectra of carbon monoxide measured by terahertz time-domain spectroscopy in the frequency range between 0. 2 and 2. 5 THz.
文章首次利用太赫兹时域光谱技术测量了一氧化碳气体在0.2~2.5太赫兹频谱范围内的吸收光谱。
We propose and describe an all-optical prefix tree adder with the help of a terahertz optical asymmetric demultiplexer (TOAD) using a set of optical switches.
提出一种基于太赫兹光学非对称解复用器的全光前缀树加法器,在其中使用了多个光开关。
We propose and describe an all-optical prefix tree adder with the help of a terahertz optical asymmetric demultiplexer (TOAD) using a set of optical switches.
提出一种基于太赫兹光学非对称解复用器的全光前缀树加法器,在其中使用了多个光开关。
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