Mo/P-Cdte/Mo结构从高电阻状态到高导电性状态的切换效应

2020 IEEE 4th International Conference on Intelligent Energy and Power Systems (IEPS) Pub Date : 2020-09-07 DOI:10.1109/IEPS51250.2020.9263081

A. Drozdov, G. Khrypunov, V. O. Nikitin, A. Meriuts, M. Khrypunov, M. Kirichenko, R. Zaitsev

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引用次数: 0

摘要

研究了高阻Mo/p-CdTe/Mo结构在20 ~ 80 V、30 ns单电压脉冲作用下的时间电压特性。我们发现，对于高电阻率的Me-A2B6-Me结构，在电流脉冲持续时间为30 ns，电压幅值不大于20 V的作用下，可以实现恢复切换到高导电性状态。提出了开关效应实现的物理机制。这样的时间电压特性使我们可以得出这样的结论:这种Me-A2B6-Me结构有望用作微纳米系统技术的关键和开关元件。

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Switching Effects from a High-Resistance State to a High Electrical Conductivity State in Mo/P-Cdte/Mo Structure

The time-voltage characteristics of high-resistance Mo/p-CdTe/Mo structures under influence of single voltage pulses in range from 20 to 80 V and duration up to 30 ns were studied. We established that for high-resistivity Me-A2B6-Me structures, a restorable switching into a high electrical conductivity state can be realized as the effect of current pulses duration up to 30 ns and no more than 20 V voltage amplitude. It has been proposed the physical mechanism that leads to realizing switching effect. Such time-voltage characteristic allows to conclude that such Me-A2B6-Me structures is perspective for use as keys and switching elements of micro- and nanosystem technology.

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2020 IEEE 4th International Conference on Intelligent Energy and Power Systems (IEPS)

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