1.
Dynamical Study on Highly Excited Molecular Vibrational States: The Cases of DCN, HCN and Its Isomers;
分子高激发振动态的动力学研究:氰化氘、氰化氢及其异构物
2.
The blade is clamped and excited into some mode of vibration.
叶片夹好后,被激发进入某种振动状态。
3.
The Dunham Calculation of Highly-excited Vibrational Energy Levels for Triatomic Molecules;
三原子分子高激发振动能级Dunham计算
4.
Investigation of odd-parity excited states of europium atoms by resonant photoionization spectroscopy
铕原子奇宇称高激发态共振电离光谱的研究
5.
On the Electronic Behavior Retrieved from the Raman Intensity and Resonances in the Highly Excited Molecular Vibration;
分子拉曼峰强中的电子结构信息与激发振动态共振的研究
6.
Such photons will excite the higher vibrational levels of the OH molecule.
这种光子会激发OH分子的较高振动能级。
7.
Study of vibro-acoustography with high spatial resolution based on sector array transducers
高分辨率扇形阵列超声激发振动声成像研究
8.
Potential Energy Function and Vibrational Energy Levels for the Ground State X~3∑_g~- and the Excited State b~1∑_g~+ of O_2 Molecule;
氧分子基态和激发态的势能函数及振动能级研究
9.
Theoretical Studies on Molecular Vibrational Excited States and Photodissociation Dynamics Using Quantum Recursive Methods;
分子振动激发态与光分解反应动力学的量子力学递推方法研究
10.
Multiple configuration quantum/classical studies of the vibrationally-mediated photodissociation dynamics of Ar-H2O
多组态量子/经典力学方法研究Ar-H_2O体系振动激发光致电解动力学
11.
DYNAMIC BEHAVIOR OF THE ON-SET AND DAMPING PROCESS OF THE THERMO-ACOUSTIC ENGINE
热声发动机起振、消振过程的动态行为
12.
Vortex-induced Vibration Reduction of Steel Free-stangding Tower Using Tuned Liquid Damper
钢桥塔裸塔状态涡激振动的TLD减振方法研究
13.
The reason of inducing whirl active vibration is investigated in this paper through the experiment of a high speed rotor in eliminating the breakdown of whirl.
通过对高速转轴甩转的排故试验分析了甩转自激振动发生的原因。
14.
High-resolution Spcctroscopy of Molecular Highly Excited Vibrational States by High-sensitive Intracavity Laser Absorption Spectrometer
用高灵敏度激光腔内吸收光谱方法研究分子高振动态的高分辨光谱
15.
Study on Shock Excitation Characteristic of V-type Engine of Automobile
汽车V型发动机振动激励特性的研究
16.
Analysis of Synchronous Movement of Vibrating System Driven by Double Vibrators on the Same Axis
同一轴线上双激振器驱动的振动系统同步运动状态分析
17.
The assessment result shows that the blade has a high circle fatigue failure caused by first order bending vibration resonance excitated by rotating stall.
评估结果表明,该级叶片存在旋转失速激发的一阶弯曲振动共振导致的高周疲劳失效。
18.
Facing concurrent engineering CAD system development of vibrator
面向并行工程的振动机激振器CAD系统的开发