photon energy
英 [ˈfəʊtɒn ˈenədʒi]
美 [ˈfoʊtɑːn ˈenərdʒi]
光子能量
双语例句
- This second source of life-giving photon energy contains a great deal of data from your local Spiritual Hierarchy.
光礼物光子能第二个来源含有大量来自本地灵魂层级的数据。 - Monte Carlo Method based Optimal Design of Wall Thickness Response of Spherical Ionization Chamber to Photon Energy
球型高压电离室壁厚对光子能量响应的蒙特卡罗优化设计 - There are two parts to this: First, as you lose electrical power, Photon Energy will replace it.
对这问题可分为二个部份:首先,当你失去电力之时,光子能量将会替换它。 - Therefore, in the dissemination of photon energy with the process of decay, the photon frequency fluctuations has been on the drop last campaign stop.
所以光子在传播过程中随能量衰减,光子的波动频率也不断下降,最后运动停止。 - The Photon Energy is coming and you can't stop it.
光子能量即将到来,而且你不能阻止它。 - Every day, your Sun transfers pure photon energy to Earth's atmosphere.
每天你们的太阳传输纯净的光子能到达地球的大气层。 - When such molecules after absorption of photons transfer their photon energy to molecular oxygen, the excited delta singlet oxygen is produced.
某些化合物吸收一定波长的光子后可以将所吸收的光能转移给分子氧,产生单线态氧分子。 - If you wish to move this Photon Energy and keep it at bay until you can get more of the population prepared for it, then you must become more enlightened.
如果你想要移动这光子能量而且不使它迫近,直到你能得到为它准备好的更多人口,那么你一定要变得更加开悟。 - Bremsstrahlung produced at an internal target of the accelerator will have a maximum photon energy equal to Ea.
在加速器的内靶上产生的轫致辐射的最大光子能量将等于Ea。 - You will literally be leaving the Third Dimension and caught up in the Fourth Dimensions, with the Photon Energy mixing in.
你将藉由光子能量参与进来而真正地离开第三度空间追上第四度空间。 - As you move into the Photon Energy, it will literally block out the sunlight.
当你进入光子能量,它实际将会腾出日光。 - X and gamma reference radiation for calibrating dosimeters and doserate meters and for determining their response as a function of photon energy
刻度剂量仪和剂量率仪以及确定它们对光子能量响应的γ和X参考辐射 - This is will be where the Photon Energy envelops the Earth plane and the three days of darkness begin.
这将会是光子能量笼罩整个地球表面和三天的黑暗开始之时。 - Time Resolved Photoluminescence of ZnO Nanoparticles under Low Photon Energy Excitation
低能量光子激发下纳米ZnO的超快时间分辨光谱特性 - The essence of the Photon Energy literally has the ability to block out the sunlight, so when I talk about darkness I'm talking about the real purity of darkness.
光子能量的本质确实有能力腾出日光,因此当我谈论关于黑暗的时候是在讨论真正纯净的黑暗。 - Effects of receptor on photon energy RESPONSE-OF personnel dosimeter
受体对个人剂量计光子能量响应的影响 - THz photon energy can be characterized by the difference of gate voltage positions between the resonance peak and satellite peak.
通过这两个峰位的栅压间距可以估算出THz光子的能量。 - A principle of the line-scan Compton backscatter imaging based on scattered photon energy spectra is presented. This imaging equation is concluded as a large-scale system of nonlinear equations.
文中详细阐述了基于散射能量谱的行扫描Compton背散射成像原理,将成像方程归结为一个大型非线性方程组,然后用基于多目标优化的神经网络来求出重建问题的解。 - In such two-center holographic technique, sensitizing light of high photon energy ( UV light) excites electrons of deep traps to shallow center via conduction band, so that the material is sensitive to the recording lights of low photon energy.
在进行双色体全息存储时,具有高光子能量的敏化光(本论文中为紫外光)首先激发深能级的电子通过导带到达浅能级中心,从而使晶体变得对低光子能量的记录光敏感。 - Absolutive photon energy and relative atomic static energy
绝对的光子能量与相对的原子势能 - The electron mass is measured, and the linewidth of the coherent scattering is analyzed. By measuring the incoherent scattering photon energy, the incoherent scattering differential cross-section can be calculated.
测量了电子质量,分析了相干散射线宽,测量了非相干散射光子的能量,算出了非相干散射微分截面,给出了Θ~Θ+dΘ内散射光子微分截面与散射角关系。 - The coefficient of photo-induced structural change as the function of incident photon energy is calculated numerically, and it agrees with experimental data.
数值计算了光诱导相结构转变系数对入射光子能量的依赖关系,与实验符合。 - The dielectric function of the samples was measured by spectroscopic ellipsometer in the photon energy range of 0.26~ 4.80 eV at room temperature.
本文研究了样品的光学性质:室温下在0.26~4.80eV的光子能量范围内,用椭圆偏振光谱仪测量了样品的复介电函数谱。 - To overcome this difficulty we proposed a strategy using combined pulses, under which the emission efficiencies near the photon energy Ip+ 8Up are promoted over 3 orders of magnitude.
据此,提出了一个有效解决这个难题的组合激光脉冲方案,从而将高达Ip+8Up的超高次谐波的发射效率提高了三个数量级以上。 - The method of multilayer analysis can also be used to determine the profiles of other parameters of interest from optical spectra as long as the parameters markedly influence the optical response and do not depend upon the photon energy.
用多层模型和最优化方法也能从光谱分析其它物理量的分布,只要这些物理量对光学性质有显著的影响,并且在测量过程中不随光子能量而改变。 - Theoretical analyse the ultra-short pulse laser interaction with transparent dielectrics, and the relation between damage threshold and laser pulse duration and photon energy is studied.
对超短脉冲激光烧蚀透明电介质材料的相互作用进行了理论分析,得出了超短脉冲激光烧蚀电介质材料的烧蚀阈值、烧蚀深度与脉冲宽度和光子能量之间的关系。 - Because of its short wavelength, high photon energy, long transmission distance in the water and sensitivity to the eyes, laser with this wavelength has important application in display and transmission of information.
由于该波段的激光具有波长短、光子能量高、在水中传输距离远和人眼敏感等优点,在显示、信息传输等领域具有重要应用。 - From the point view of a potential-curve-based model, the difference is that whether they can jump over the intermolecular potential barrier or not, which depends on the intermolecular distance and the excitation photon energy.
这两种激子在一种基于势能曲线的模型上看,区别在于激发态电子是否能够跃过分子间势垒,而分子间距和激发光子能量决定了这个因素。 - The relation between damage threshold and laser pulse duration, photon energy is studied by this model. The respective roles of multi-photon ionization, tunnel ionization, and avalanche ionization in laser-induced damage are examined.
讨论了材料的烧蚀阈值与激光脉宽、光子能量之间的关系;讨论了多光子电离、隧道电离和雪崩电离机制在飞秒激光对材料烧蚀过程中的不同地位。 - The proportion between the thermalization process and diffusion process possess in all the decay process is determined by photon energy of excitation.
载流子的热弛豫过程与扩散过程在整个衰减过程中所占的比例,取决于激发光子的能量。