1) near-resonance driving
近共振驱动
2) nearly resonant vibration
近共振
1.
This product is made based on previously ordinary horizontal vibrating Transporter through the research about market and using the non linear vibrating theory of section beam,theory of optimiaztion and theory of nearly resonant vibration and CAD technology.
在原普通水平振动输送机的基础上 ,经过市场与现场调研 ,应用非线性振动理论、微弯等截面梁的弯曲振动理论、最优化理论、近共振理论及 CAD技术 ,研制出振动机械新产品 ,该产品与国内外同类产品相比具有重量轻、体积小、节能、低噪、高效的特点 ,是一个极具发展前景推广与应用价值的高新技术产
3) Kondo resonance
近藤共振
1.
Kondo resonance phenomona in low-dimensional correlated electron systems;
近藤共振现象及其在低维电子系统中的实现
2.
The properties of a quantum dot coupled with two magnetic electrodes, such as the Kondo resonance, spin-splitting of single electron levels, magnetization, and linear conductance, are discussed.
介绍了与磁性电极耦合的量子点的近藤共振、单电子能级自旋劈裂、磁化和线性电导等物理性质 。
4) driving vibration
驱动振动
1.
For vibratory gyro,very small coupling error will induce great measuring error because driving vibration is much greater than sensing vibration.
由于驱动振动幅度远大于读出振动,因此极小的耦合量就会造成很大的检测误差。
5) adjacent driving
临近驱动
6) vibrational resonance
振动共振
1.
On the other hand,the vibrational resonance can be raised by the action of high and low frequency signal.
单一双稳系统受到弱周期信号和噪声的作用能产生随机共振,而在高、低两种不同频率信号作用下则能产生振动共振。
补充资料:电子自旋共振(见电子回旋共振)
电子自旋共振(见电子回旋共振)
electron spin resonance
电子自旋共振eleetron spin resonanee见电子回旋共振。
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