Dislocations Preferentially Generated in Compressed Regions of Saddle-Shaped Deformed, Precipitation-Softened, Czochralski-Grown Silicon Wafers
スポンサーリンク
概要
- 論文の詳細を見る
Distribution of dislocations in Czochralski-grown(CZ)silicon(Si)circular wafers thermally deformed in a saddle shape at 1273 K was investigated by using X-ray topography(for the bulk Si)and an etching technique(for the surface). In such deformed wafers softened by oxygen precipitation(density of oxide precipitates, including all secondary microdefects, was less than 2 × 10^<15>m^<-3>), slip dislocations were preferentially generated and randomly distributed in the concave side(compressed region)of the wafer. This preference is due to the lattice mismatch between oxide precipitates and Si matrix, which causes internal stress that compresses the Si matrix and results in an externally applied stress to the concave side of the wafer. When the density of microdefects was less than 2 × 10^<13>m^<-3> slip dislocations were introduced along the<110>slip direction in a line from the top surface of the wafer to a neutral plane. At this density, dislocations were initiated at wafer surfaces where thermal stresses were the highest and then propagated into the neutral plane in both the concave and convex sides. Based on our results and on previous numerical analyses of the relationship between the critical stress required to multiply ship dislocations and the microdefect density, we developed a model that explains how slip dislocations multiply in saddle-shaped deformed wafers.
- 社団法人応用物理学会の論文
- 2000-10-15
著者
関連論文
- Ureteropyeloscopy in the diagnosis of patients with upper tract hematuria:An initial clinical study
- Approximation of traumatic urethral disruption by trocar through nephroscope under the light guide
- Laparoscopy in patients with impalpable testes
- 1P-194 サブミリセカンド時間分解能でのKcsAカリウムイオンチャネル開閉構造変化計測(生体膜・人工膜-興奮・チャネル,第47回日本生物物理学会年会)
- 1P-193 不活性化しない変異体であるE71Aを用いたKcsAカリウムチャネルのpH依存性(生体膜・人工膜-興奮・チャネル,第47回日本生物物理学会年会)
- Normal Mode Analysis of Polytheonamide B(Cross-disciplinary physics and related areas of science and technology)
- Interaction between Tetraethylammonium and Permeant Cations at the Inactivation Gate of the HERG Potassium Channel
- Barrier-Type AC Surface Photovoltage in Silicon with a Copper-Contaminated Surface
- Anomalous Behavior of Schottky Barrier-Type Surface Photovoltages in Chromium-Contaminated N-Type Silicon Wafers Exposed to Air
- Effect of Zn on Segregation of ZnO-Rich SiO2 Layer and Reduced Oxidation Rate in Thermally Oxidized Si(001)
- Quantitative Estimation of the Metal-Induced Negative Oxide Charge Density in n-Type Silicon Wafers from Measurements of Frequency-Dependent AC Surface Photovoltage
- Electrical Properties of Anodically Oxidized Nb2O5 and Si-Doped Nb2O5 Films
- Dislocations Preferentially Generated in Compressed Regions of Saddle-Shaped Deformed, Precipitation-Softened, Czochralski-Grown Silicon Wafers
- Translation from Schottky Barrier to Atomic Bridging-Type Surface Photovoltages in Cr-Aqueous-Solution-Rinsed Si(001) Wafers
- Quantitative Estimation of Aluminum-Induced Negative Charge Region Top Area of SiO2 Based on Frequency-Dependent AC Surface Photovoltage
- Enhanced and Retarded SiO
- Behavior of Metal-Induced Negative Oxide Charges on the Surface of N-type Silicon Wafers Using Frequency-Dependent AC Surface Photovoltage Measurements
- Enhanced and Retarded SiO₂ Growth on Thermally Oxidized Fe-Contaminated n-Type Si(001) Surfaces
- Kinetics of Ultrathin Thermal Oxide Growth on Si(001) Surfaces