Micro-raman spectroscopy and atomic force microscopy characterization of gallium nitride damaged by accelerated gallium ions

Hong Youl Kim; Jaehui Ahn; Jihyun Kim

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Micro-raman spectroscopy and atomic force microscopy characterization of gallium nitride damaged by accelerated gallium ions

机译：加速镓离子破坏的氮化镓的显微拉曼光谱和原子力显微镜表征

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Gallium nitride on sapphire was characterized using AFM,SEM and micro-Raman spectroscopy after etching by a NOVA 200 FEI Focused Ion Beam (FIB).Various probe beam currents were used at a 30 kV acceleration voltage.The sidewall of the etched area was rougher and the roughness on the surface of the etched area increased when the probe beam current was increased.The intensity of the E22 phonon of micro-Raman spectroscopy decreased when the probe beam current was increased from 10pA,100 pA,1 nA to 20 nA.Therefore,it is very important to control the FIB probe current to maximize the etch rate and minimize the damage induced by accelerated Gallium ions.

机译：用NOVA 200 FEI聚焦离子束（FIB）蚀刻后，通过AFM，SEM和微拉曼光谱对蓝宝石上的氮化镓进行表征，在30 kV加速电压下使用各种探针束电流，蚀刻区域的侧壁更粗糙当探针电流从10pA，100pA，1nA增加到20nA时，显微拉曼光谱的E22声子强度降低，刻蚀区域表面的粗糙度增加。因此，控制FIB探针电流以最大程度地提高刻蚀速率并最小化加速镓离子引起的损伤非常重要。

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《Journal of Ceramic Processing Research. (Text in English)》 |2008年第1期|共3页
作者
Hong Youl Kim; Jaehui Ahn; Jihyun Kim;
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正文语种 eng
中图分类硅酸盐工业;
关键词
Focused Ion Beam; Gallium Nitride; Damage;

机译：聚焦离子束;氮化镓;损伤;

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1. Micro-raman spectroscopy and atomic force microscopy characterization of gallium nitride damaged by accelerated gallium ions [J] . Hong Youl Kim, Jaehui Ahn, Jihyun Kim Journal of Ceramic Processing Research. (Text in English) . 2008,第1期

机译：加速镓离子破坏的氮化镓的显微拉曼光谱和原子力显微镜表征
2. Local ultra-violet surface photovoltage spectroscopy of single thread dislocations in gallium nitrides by Kelvin probe force microscopy [J] . Liu Zhenghui, Xu Ke, Fan Yingmin, Applied Physics Letters . 2012,第25期

机译：开尔文探针力显微镜对氮化镓中单线位错的局部紫外表面光电压谱
3. Local ultra-violet surface photovoltage spectroscopy of single thread dislocations in gallium nitrides by Kelvin probe force microscopy [J] . Zhenghui Liu, Ke Xu, Yingmin Fan, Applied Physics Letters . 2012,第25期

机译：开尔文探针力显微镜对氮化镓中单线位错的局部紫外表面光电压谱
4. Distinguishing negatively-charged and highly conductive dislocations in gallium nitride using scanning kelvin probe and conductive atomic force microscopy [C] . Blake S.Simpkins, Edward T.Yu, Patrick Waltereit, Materials Research Society Symposium . 2003

机译：利用扫描开尔文探针和导电原子力显微镜区分在氮化镓中产生带负电和高导电的脱位
5. Analysis of the gallium nitride-sapphire thick films, processed by iodine vapor phase growth by transmission electron microscopy and atomic force microscopy. [D] . Bhaskara, Praveena Murthy. 2001

机译：用透射电子显微镜和原子力显微镜分析碘汽相生长处理的氮化镓-蓝宝石厚膜。
6. Synthesis of gallium nitride nanostructures by nitridation of electrochemically deposited gallium oxide on silicon substrate [O] . Norizzawati Mohd Ghazali, Kanji Yasui, Abdul Manaf Hashim 2014

机译：通过氮化硅衬底上电化学沉积的氧化镓的氮化合成氮化镓纳米结构
7. Correlated scanning Kelvin probe and conductive atomic force microscopy studies of dislocations in gallium nitride [O] . B. S. Simpkins, E. T. Yu, P. Waltereit, 2003

机译：氮化镓中位错的相关扫描kelvin探针和导电原子力学研究

Micro-raman spectroscopy and atomic force microscopy characterization of gallium nitride damaged by accelerated gallium ions

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