Anisotropy in the Conductivity of Hot Holes in Germanium

Gibbs W. E. K.

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Anisotropy in the Conductivity of Hot Holes in Germanium

机译：锗热孔电导率的各向异性

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The anisotropy in the conductivity of p-type germanium at fields of up to 3 kV/cm has been measured at lattice temperatures of 77°K and 21°K for specimens with impurity concentrations from 3.0×1014 cm-3 to 3.2×1015 cm-3. The electric field vector was found to deviate from the current vector towards the direction for specimens in the (110) plane and this behavior is opposite to that previously published by Sasaki et al. The anisotropy decreased with increased impurity concentration and the reduction of temperature from 77° to 21°K shifted the anisotropy-electric field curve to lower fields.

机译：对于杂质浓度为3.0×1014 cm-3至3.2×1015 cm的样品，已经在77°K和21°K的晶格温度下测量了在高达3 kV / cm的场中p型锗的电导率各向异性-3。发现电场矢量从电流矢量向（110）平面中的样本方向偏离，这种行为与Sasaki等人先前发表的相反。各向异性随着杂质浓度的增加而降低，并且温度从77°降低到21°K，各向异性电场曲线向更低的方向移动。

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来源
《Journal of Applied Physics 》 |1962年第11期| 共3页
作者
Gibbs W. E. K.;
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作者单位

Australian Defence Scientific Service, Department of Supply, Defence Standards Laboratories, Maribyrnong, Victoria, Australia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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Anisotropy in the Conductivity of Hot Holes in Germanium

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