Visualization of different carrier concentrations in n-type-GaN semiconductors by phase-shifting electron holography with multiple electron biprisms

IF 1.8 4区 工程技术 Microscopy Pub Date : 2019-11-01 DOI:10.1093/jmicro/dfz037
Kazuo Yamamoto;Kiyotaka Nakano;Atsushi Tanaka;Yoshio Honda;Yuto Ando;Masaya Ogura;Miko Matsumoto;Satoshi Anada;Yukari Ishikawa;Hiroshi Amano;Tsukasa Hirayama
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引用次数: 2

Abstract

Phase-shifting electron holography (PS-EH) using a transmission electron microscope (TEM) was applied to visualize layers with different concentrations of carriers activated by Si (at dopant levels of 10 19 , 10 18 , 10 17 and 10 16 atoms cm −3 ) in n-type GaN semiconductors. To precisely measure the reconstructed phase profiles in the GaN sample, three electron biprisms were used to obtain a series of high-contrast holograms without Fresnel fringes generated by a biprism filament, and a cryo-focused-ion-beam (cryo-FIB) was used to prepare a uniform TEM sample with less distortion in the wide field of view. All layers in a 350-nm-thick TEM sample were distinguished with 1.8-nm spatial resolution and 0.02-rad phase-resolution, and variations of step width in the phase profile (corresponding to depletion width) at the interfaces between the layers were also measured. Thicknesses of the active and inactive layers at each dopant level were estimated from the observed phase profile and the simulation of theoretical band structure. Ratio of active-layer thickness to total thickness of the TEM sample significantly decreased as dopant concentration decreased; thus, a thicker TEM sample is necessary to visualize lower carrier concentrations; for example, to distinguish layers with dopant concentrations of 10 16 and 10 15 atoms cm −3 . It was estimated that sample thickness must be more than 700 nm to make it be possible to detect sub-layers by the combination of PS-EH and cryo-FIB. Phase-shifting electron holography precisely visualized layers with different concentrations of carriers activated by Si (at dopant levels of 10 19 , 10 18 , 10 17 , and 10 16 atoms/cm 3 ) in n-GaN semiconductors. A cryo-FIB and triple electron biprisms were used to prepare a uniform TEM sample and to acquire high-contrast holograms without Fresnel fringes.
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用多电子双棱镜相移电子全息术实现n型GaN半导体中不同载流子浓度的可视化。
采用透射电子显微镜(TEM)相移电子全息术(PS-EH)观察了n型GaN半导体中不同载流子浓度的Si激活层(掺杂水平分别为1019、1018、1017和1016原子cm-3)。为了精确测量GaN样品中重构的相位分布,使用三个电子双棱镜获得了一系列由双棱镜灯丝产生的无菲涅耳条纹的高对比度全息图,并使用低温聚焦离子束(cro - fib)制备了宽视场畸变较小的均匀TEM样品。以1.8 nm的空间分辨率和0.02 rad的相位分辨率对350 nm厚TEM样品中的所有层进行了区分,并测量了层间界面处相剖面的阶跃宽度(对应耗尽宽度)的变化。通过观察相分布和理论能带结构的模拟,估计了各掺杂水平上活性层和非活性层的厚度。随着掺杂剂浓度的降低,TEM样品活性层厚度与总厚度之比显著降低;因此,需要较厚的TEM样品来显示较低的载流子浓度;例如,区分掺杂浓度为1016和1015原子cm-3的层。估计样品厚度必须大于700 nm,才能使PS-EH和冷冻fib结合检测子层成为可能。
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来源期刊
Microscopy
Microscopy 工程技术-显微镜技术
自引率
11.10%
发文量
0
审稿时长
>12 weeks
期刊介绍: Microscopy, previously Journal of Electron Microscopy, promotes research combined with any type of microscopy techniques, applied in life and material sciences. Microscopy is the official journal of the Japanese Society of Microscopy.
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