这些传感器根据量子隧道效应的原理工作,即只要间隔的距离非常微小,电子就能穿过经典物理学认为不能通过的势垒。
The sensors rely on quantum tunnelling, in which electrons take journeys that would not be allowed by the laws of classical physics, as long as the distances involved are tiny.
我将这一现象称为“万花筒效应”,因为它会使行星在星盘中运行时形成一种新的有规律性间隔的组合排列。
I call this phenomena the "Kaleidoscope Effect" because of the way it shifts into new permutations at regular intervals as the planets arc around horoscope.
方法使用微持续、微间隔方法,调节刺激物的显示屏数,根据目标的对比度变化来判定掩蔽效应的强弱。
Methods Micro-persistence and interval process, modulate the displaying screen number of the stimulators to determine the strength of masking effect by the contrast of object.
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