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- standing wave resonance 驻波共振法
- VSWR.Abbreviation for Voltage Standing Wave Ratio. VSWR电压驻波比的缩写。
- VSWR? Voltage Standing Wave Ratio? 电压驻波比?
- The principle of standing wave resonator for MRI and the open quadrature birdcage coil MRI驻波谐振器原理和开正交鸟笼型线圈
- Keywords MRI;RF coil;open birdcage quadrature coil;standing wave resonator;quadrature phased array; 核磁共振成像;射频线圈;开放式正交鸟笼线圈;驻波谐振器;正交相位阵列;
- Physical design of 2 MeV standing wave accelerating tube[J]. 引用该论文 柏伟;许州;金晓;黎明;杨兴繁;沈旭明.
- Standing wave LUM is the mainstream of the research of the LUM. 驻波型直线电机是直线型超声波电机发展的主流。
- Standing wave representations such as these are called atomic orbitals. 这种驻波示意图叫做原子轨道。
- There is no finite velocity of propagation, and we speak of a standing wave. 波没有有限的传播速度,因而我们称之为驻波。
- WARNING: Standing Wave Ratios in excess of 2:1 may cause transmitter damage. 警告:当驻波比超过2:1可能会导致发射部件受损。
- WARNING : Standing Wave Ratios in excess of 2:1 may cause transmitter damage. 警告:当驻波比超过2:1可能会导致发射部件受损。
- Standing Wave Rations in excess of 2:1 may cause transmitter damage. 当驻波比超过2:1可能会导致发射部件受损。
- standing wave linear resonance accelerator 驻波线性谐振加速器
- For a standing wave,the region or point of maximum amplitude between adjacent nodes. 波腹,腹点一个连续波中,相邻波节中最大振幅的位置或点。
- Energy and its density of wave, Huygens principle, wave interference, standing wave and its characters, Double effect. 波的能量及能量密度;惠更斯原理;波的干涉,驻波及其特征,多普勒效应。
- The resulting standing wave is a swirling motions such as might result if we swirled water in a round-bottomed cup. 所产生的驻波是一种旋转运动,它是在我们转动圆底杯中的水时会产生的现象。
- For a standing wave, the region or point of maximum amplitude between adjacent nodes. 波腹,腹点一个连续波中,相邻波节中最大振幅的位置或点
- The double T discharge resonator and traveling wave resonator for the microwave excited gas lasers are proposed. 提出并分析了两种用于微波泵浦气体激光器的微波谐振放电腔结构,一是双T谐振腔,一是行波共振腔。
- The sound absorption coefficient of the material was tested by standing wave tube method. 采用驻波管法测试材料的吸声系数。
- The trajectories of particle movements in a standing wave acoustic field are recorded by fast-speed video camera. 采用可视化实验的方法,拍摄可吸入颗粒在驻波声场中的运动轨迹。
