With the increase of drivingfrequency, the initial radii range of cavitation bubbles decrease, and the oscillation intensity reduces.
随着声波频率的升高,空化气泡的初始半径取值区间越来越小,空化振荡也越来越弱。
2
Furthermore, it is found out in the experiments that the degree of phase response linearization of liquid crystal modulator decreases with drivingfrequency increasing.
同时,本文还在实验中发现了,相位响应的线性化程度会随着驱动频率的提高而降低。
3
When the drivingfrequency is high enough, a large number of ions are trapped and the induced space charge field makes a great many of electrons stay in the discharge volume.