Semiconductor microcrystals with ultra-high sensitivity to mechanical strain at cryogenic temperatures

Proceedings of the 5th European Workshop on Low Temperature Electronics Pub Date : 2002-05-01 DOI:10.1109/WOLTE.2002.1022455
A. Druzhinin, E. Lavitska, I. Maryamova, T. Palewski, A. Kutrakov
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引用次数: 2

Abstract

Results of the studies of the low-temperature piezoresistance for p-type silicon microcrystals doped with boron up to N=7×10 17 -1×10 19 cm -3 are presented. The dependence of piezoresistance on impurity concentration and temperature was studied. The extremely high piezoresistance was found at the lowest temperatures 4.2-20 K in samples with boron concentration corresponding to the insulating side of the metal-insulator transition in the vicinity of it. A practical application of such a giant piezoresistance in mechanical sensors for cryogenic temperatures is discussed.
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在低温下对机械应变具有超高灵敏度的半导体微晶体
本文介绍了掺硼量为N=7×10 17 -1×10 19 cm -3的p型硅微晶的低温抗压性能的研究结果。研究了杂质浓度和温度对压阻性能的影响。在4.2 ~ 20 K的最低温度下,硼浓度与金属-绝缘体转变的绝缘侧相对应的样品具有极高的压阻。讨论了这种巨大压电阻在低温机械传感器中的实际应用。
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Proceedings of the 5th European Workshop on Low Temperature Electronics
Proceedings of the 5th European Workshop on Low Temperature Electronics
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