结果表明:大的热涨落使RF - SQUID环路有效临界电流明显下降,从而使跃迁点大大提前,跃迁宽度满足一个普适表达式。
Finally we find that the-effective critical current of RF-SQUID loop is greatly reduced by large fluctuation and the transition width can be determined with a simple equation.
模拟结果解释了实验观察到的雪崩击穿现象,并表明电子电流比空穴电流提前饱和。
The results explain the experimental observed phenomenon and demonstrate that the current contributed by electrons is saturated earlier than the hole current.
模拟结果解释了实验观察到的雪崩击穿现象,并表明电子电流比空穴电流提前饱和。
The results explain the experimental observed phenomenon and demonstrate that the current contributed by electrons is saturated earlier than the hole current.
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