当提供自旋体系一定的能量,则处于低能级自旋态的核可以吸收能量而跃迁到高能级自旋态。通常这个能量可由照射体系用的电磁波来提供。当照射样品的电磁波的能量hv正好等于两个核磁能级的能量差∆E时,低能级的核就会吸收频率为v的射频电磁波而跃迁到高能级,从而产生核磁共振吸收信号,发生核磁共振的条件是v=(1/2)γH0。
We show that it is possible to localize a three-level cascade atom under the resonance condition when it passes through a standing-wave field.
我们证明当三能级级联型原子通过驻波场时,通过探测场探测中间态的布居,在共振条件下原子局域化是可能的。
参考来源 - 运动三能级原子局域化的研究·2,447,543篇论文数据,部分数据来源于NoteExpress
再由共振条件确定出管道的极限冲刷长度。
The limiting erosion length can be determined by the resonance condition.
证明了相对论性共振条件在动量空间和速度空间存在着差异;
It is shown that there exists some difference between the relativistic resonance condition in momentum space arid that in velocity-space.
共振条件是否存在,取决于波能累积过程是否大于消散过程。
The existence of resonance is dependent on whether the wave -energy accumulative processes are greater than the dissipative processes.
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