1) earthquake source spectra
震源辐射谱
2) seismic source electromagnetic radiation method
震源电磁辐射法
3) spectral radiation
光谱辐射
1.
The spectral radiation characteristics of airborne infrared decoy is described in this paper.
描述了机载红外诱铒弹的光谱辐射特性,给出了1。
4) emission spectrum
辐射谱
1.
Emission spectrum of two atoms interacting with light field in the kerr medium;
含Kerr介质的Fock态和相干态腔场中耦合双原子辐射谱
2.
By means of time-evolution operator, we have studied the emission spectrum from two-atom in Bell basis states through the Raman interaction with a cavity-field in the Fock state in the paper.
采用时间演化算符方法 ,研究了Fock态腔场内通过拉曼相互作用的Bell态下两原子的辐射谱 ,给出了原子辐射谱的物理表达式。
3.
By means of time-evolution operator,we have studied the emission spectrum of a Λ-type three-level atom interacting resonantly with two-mode entangled coherent-states cavity fields.
采用时间演化算符方法,研究Λ-型三能级原子与纠缠相干态光场共振相互作用的辐射谱。
5) Radiation spectrum
辐射谱
1.
The result shows that the radiation spectrum isn t pure thermal and the tunneling rate is related to the change of Bekenstein-Hawking entropy.
采用Ham ilton-Jacob i方法对动态Vaidya黑洞的Hawk ing隧穿辐射进行研究,结果表明该黑洞的辐射谱不是纯热谱,且出射粒子的隧穿率与Bekenste in-Hawk ing熵变有关。
2.
It is found that the radiation spectrum is not only relative to the radiation temperature of black-body, but also to the energy and the chemical potential and the kinds of particles.
发现辐射谱不仅与黑体的辐射温度有关,还与辐射粒子的能量、化学势和种类有关。
3.
By using the ratiant emittance of Schwarzschild, the radiation spectrum and Wien s displacement law art calcuated out.
利用Schwarzschild黑洞的辐出度,导出黑洞的辐射谱及Wien位移定律,因辐射粒子的 种类不同,导出费米子场及玻色子场的辐射谱及Wien位移定律略有不同。
6) radiation spectrums
辐射谱
1.
Using radiant exitance of Schwarzschild black hole, the radiation spectrums of Fermion field and Boson field of black hole are calculated out, and Wien’s displacement laws are also obtained.
利用Schwarzschild黑洞的瞬时辐出度,导出黑洞Fermi子场和Bose子场的辐射谱及Wien位移定律。
补充资料:同步辐射穆斯堡尔谱学
分子式:
CAS号:
性质:利用同步辐射光源作为穆斯堡尔源的穆斯堡尔谱学。同步辐射光虽然具有高亮度、高准直性等优点,但由于其光谱是连续型的,存在着大量对共振吸收无用、却构成严重散射干扰的光子,因此目前还存在着技术上的困难。
CAS号:
性质:利用同步辐射光源作为穆斯堡尔源的穆斯堡尔谱学。同步辐射光虽然具有高亮度、高准直性等优点,但由于其光谱是连续型的,存在着大量对共振吸收无用、却构成严重散射干扰的光子,因此目前还存在着技术上的困难。
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