1) one dimension oscillator
一维振子
1.
This paper presents the description of the x t curve of the one dimension oscillator in the overdamping and critical damping states by using VISUAL C++ program with friendly and firm interface.
用VISUALC ++程序实现了一维振子的过阻尼与临界阻尼现象x t曲线的计算机描绘 。
2) one-dimensional harmonic oscillator
一维谐振子
1.
The deductive method for the operator theory of the uncertainty relation of one-dimensional harmonic oscillator;
一维谐振子不确定关系的算符理论推导法
2.
The method of using node theorem to solve the one-dimensional harmonic oscillator with a deta potential was presented and the reliable accurate eigenenergies and eigen- wave functions were given.
探讨了用节点法求解存在势时的一维谐振子势,并给出精确可靠的能级及本征波函数。
3.
This paper also pointed out that the lower limit of one-dimensional harmonic oscillator s ΔpΔx is exactly the lower limit of /2 which given by the general form of the uncertain relation,however the lower limi.
推出了一维谐振子的位置不确定范围、动量几率幅和动量几率密度的递推公式、动量不确定范围和等式型动量 -位置不确定关系 。
3) one dimension harmonic oscillator model
一维谐振子模型
1.
Calculated three order nonlinear polarzability of C_(60) molecule using classical one dimension harmonic oscillator model and agreed with experimen
用经典的一维谐振子模型计算了C_(60)分子的三阶非线性极化率,与实验结果比较,符合的很好。
4) one-dimensional linear harmonic oscillator
一维线性谐振子
1.
Taking the one-dimensional linear harmonic oscillator as an example,the time-dependence of the distribution of the probability density and probability flux have been calculated for the non-stationary case.
以一维线性谐振子为例,对非定态情况通过数值计算给出了不同时间的几率密度和几率流密度分布,并且讨论了几率密度和几率流密度随时间变化的基本特征。
5) one-dimensional damped-amplified harmonic oscillators
一维减幅-增幅谐振子
1.
The study of symmetries and conserved quantities for one-dimensional damped-amplified harmonic oscillators;
一维减幅-增幅谐振子的守恒量与对称性
6) one dimensional quantum oscillatory system
一维量子振动系统
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