1) THz radiation
THz射线
1.
The characteristics and application of THz radiation are introduced, and its new application in molecular imaging is put forward along with the broad prospects of THz in biomedicine.
本文主要介绍了THz射线的特性及其各种应用,同时提出一种利用THz射线来进行分子影像的一种新的医学应用方法及其广阔的应用前景。
2.
Since the late 1980s,research & applications of THz radiations have developed greatly.
简要介绍了THz射线的特性及其应用。
2) THz-ray imaging
THz射线图像
3) THz radiation
THz辐射
1.
THz radiation and its applications in biology;
一种新型相干辐射——THz辐射在生物学中的应用
2.
Application of spectroscopy in gas detection is introduced,especially the headway of research of THz radiation in gas detection.
本文概述了光谱技术在气体检测中的应用,重点介绍了THz辐射在气体检测中的研究进展。
3.
The pulsewidth of the observed THz radiation is about 0 2 ps, resulting in the wideband THz s pe ctra with a spectral sensitivity beyond 4 THz and the full width at half_maximum of about 2 4 THz.
借助抽运_探测技术研究了ZnTe晶体中光学整流产生的太赫兹 (THz)辐射 ,利用ZnTe晶体的线性电光效应探测THz辐射场分布 ,观察到了较窄 (约为 0 2ps)的THz场分布及相应较宽 (响应超过 4THz ,半峰宽约为 2 4THz)的THz频谱 ,并运用琼斯矩阵对实验结果进行了理论拟合 。
4) THz radiation source
THz辐射源
1.
Study of 0.257 THz radiation source based on Smith-Purcell effect;
基于Smith-Purcell效应的0.257THz辐射源研究
6) THz wave
THz辐射
1.
Chirped pulse cross-correlation for THz wave measurement;
啁啾脉冲互相关法探测THz辐射
2.
By measuring the absorption of THz wave and analyzing the phase matching condition in these crystals,it is concluded that the phase matching condition dominates the performance of the crystal as a THz wave emitter.
本文介绍了不同组分的Zn1-xCdxTe〈110〉单晶产生THz辐射的特性。
3.
In the last decade, rapid progress in ultrafast laser technology provides a steady and reliable optical source for the terahertz (THz) pulses generation, which greatly promotes the research in the THz waveband that is difficult to access before.
近十几年来,超快激光技术的迅速发展为THz辐射的产生提供了稳定、可靠的激发光源,使THz辐射的研究得到了蓬勃发展。
补充资料:Thz
分子式:
CAS号:
性质:是由小单孢菌Sp. Sank 62390 Micromo-nospora sp. sank 62390和Amycolatopsis sp.Sank60790产生的抗生素。白色无定形粉末。旋光度+115°(c=1,水)。溶于水,不溶于丙酮和氯仿。紫外吸收光谱末端吸收。不抗细菌,有杀虫、抗真菌活性,是海藻糖苷酶强的特异性抑制剂。对水稻Pyricularia oryual、玉蜀黍赤霉、番茄Alternaria solani产生的真菌病害无效。防止蚕的Bombyx Mori病研究结果表明,三周幼龄蚕腹腔注射50μg/ml和100μg/ml,可起到防病的作用。
CAS号:
性质:是由小单孢菌Sp. Sank 62390 Micromo-nospora sp. sank 62390和Amycolatopsis sp.Sank60790产生的抗生素。白色无定形粉末。旋光度+115°(c=1,水)。溶于水,不溶于丙酮和氯仿。紫外吸收光谱末端吸收。不抗细菌,有杀虫、抗真菌活性,是海藻糖苷酶强的特异性抑制剂。对水稻Pyricularia oryual、玉蜀黍赤霉、番茄Alternaria solani产生的真菌病害无效。防止蚕的Bombyx Mori病研究结果表明,三周幼龄蚕腹腔注射50μg/ml和100μg/ml,可起到防病的作用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条