1) Morse oscillator
Morse振子
1.
Starting from two uncoupled Morse oscillators, this paper first studied the bifurcation structures in the local mode region in phase space for two kinetically coupled Morse oscillators.
从两个未耦合的Morse振子出发,首先研究了两个动能耦合的Morse振子系统局域模区域内的分岔结构。
2) Morse molecules
Morse势分子
3) Morse potential
Morse势
1.
Calculation of matrix elements of the operators of X and P in Morse potential;
Morse势中矩阵元X_(νν′)、P_(νν′)的计算
2.
Under the format of atomic between cohesive energy possess Morse potential,we calculate .
原子对势具有Morse势[5]的形式下计算了镁的线热膨胀系数及 δ。
3.
We neglect the off-diagonal elements in the coupled potential terms and fit the Morse potential to the Lennard-Jones potential by making them being equal to each' other at the zero and deepest points.
本文用一种新的方法求解A+BC体系的转动非弹性散射问题,即在径向耦合方程的势能耦合项中只取对角项,并用Morse势拟合Lennard-Jones势,从而可得去耦合径向方程的两个解集。
4) Morse germs
Morse芽
1.
In this paper,it is discussed whether there exist higher order Morse germs in the ring of C~∞ functions germs of several variables.
本文研究了多元C∞函数芽环中高阶Morse芽的存在性问题。
5) Morse code
Morse码
1.
The automatic decoding method locks the frequency of Morse code by phase locked logic circuit at first.
Morse码自动译码方法,使用锁相环锁定Morse码频率,然后通过译码处理器捕捉Morse码并计算点码、划码及码间隔的时长,从而根据点码与划码的组合自动译出字符并显示到终端。
6) vibrator
[英][vai'breitə] [美]['vaɪ,bretɚ]
振子
1.
Study on preparation and operating process of high sintering temperature silver paste for piezoceramic vibrator use;
压电陶瓷振子专用高温银浆的制备及工艺研究
2.
But the application is limited because of its lower efficiency and its non-linearity capacitive vibrator.
压电驱动因其多样的实现形式和高精度而引起广泛关注,但由于压电振子的非线性容性特性使其效率成为进一步商业化的限制。
3.
The operation principle of two-freedom flat plate piezoelectric motor was analyzed,and the relation btween the motion and vibraton mode of the piezoelectric vibrator was studied, by using FEM (Finite Elements Methods),the vibraton mode of vibrator is calculated,and the relation between vibration mode and motor s structure,when motor is working,was further known and understood.
分析了平板式二自由度压电马达的工作原理,对压电振子的振动与运动特性的关系进行了探讨。
补充资料:点振子振动和点电极振子振动
分子式:
CAS号:
性质:又称点振子振动和点电极振子振动。振动能量绝大部分集中在点电极范围内,形成“能量封闭”的振动模式。振子电极面远小于压电陶瓷片的总面积,且与厚度有适宜的匹配关系。在交变电场作用下,沿厚度方向产生振动,其振幅随着至电极中心距离的增加,呈指数式衰减。谐振频率与压电陶瓷片的厚度有关。为提高频率通常将压电陶瓷片磨得很薄,有时考虑到压电陶瓷自身强度太低,可用特制的陶瓷片作垫片来防止压电陶瓷片损坏。常用于高频场合。
CAS号:
性质:又称点振子振动和点电极振子振动。振动能量绝大部分集中在点电极范围内,形成“能量封闭”的振动模式。振子电极面远小于压电陶瓷片的总面积,且与厚度有适宜的匹配关系。在交变电场作用下,沿厚度方向产生振动,其振幅随着至电极中心距离的增加,呈指数式衰减。谐振频率与压电陶瓷片的厚度有关。为提高频率通常将压电陶瓷片磨得很薄,有时考虑到压电陶瓷自身强度太低,可用特制的陶瓷片作垫片来防止压电陶瓷片损坏。常用于高频场合。
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