標題: | 化學氣相反應室內高溫基板對於流場影響之研究 Investigation of flow patterns with high temperature substrate in a chemical vapor deposition reactor |
作者: | 彭冠中 Peng, GUAN-JHONG 劉耀先 Liu, Yao-Hsien 機械工程系所 |
關鍵字: | 化學氣相沉積;流場可視化;粒子影像測速儀;熱浮力效應;旋轉效應;Chemical vapor deposition;Flow visualization;Particle Image Velocimetry;buoyancy-induced flow;rotation-induced flow |
公開日期: | 2015 |
摘要: | 化學氣相沉積技術為半導體薄膜成長的主要技術。薄膜成長的好壞取決於沉積反應的均勻度,因此,基板上的流場分布便相當重要。本文以實驗的方式,建立實體CVD腔體,配合流場可視化技術,改變進氣高度、進氣與基板溫度差、基板轉速,觀察在不同實驗條件下,流場的分布情形。實驗操作主要參數:多孔式噴灑頭直徑190mm,基板直徑152.4,方形反應腔尺寸為280mm,進氣流量為15slm,進氣高度為20mm、40mm,進氣與基板溫度差為0°C-500°C,基板轉速從0rpm-500rpm,腔體壓力為常壓。研究結果發現,增加基板轉速可有效抑制熱浮力效應,但基板轉速過高,在靠近壁面處與基板上產生旋轉渦流。降低進氣高度明顯降低熱浮力效應與旋轉效應,當進氣高度從40mm降為20mm時,基板上方不會出現熱浮力渦流與旋轉渦流。隨著基板溫度上升,氣體黏滯力也會上升,旋轉雷諾數下降,將降低旋轉效應對流場的作用力。 Chemical vapor deposition (CVD) is widely used for manufacturing semiconductor materials and thin-films. The flow field influences the uniformity in the deposition process. The study build a test chamber for gas flow visualization experiments. The investigated parameters, include the showerhead-to-disk temperature difference (0-500°C), disk rotational speeds (0-500rpm), and showerhead-to-disk height (20-40mm). The result shows that buoyancy-induced recirculation can be suppressed by disk rotation. When disk rotational speeds increase, vortexes form near the chamber wall and on the disk simultaneously. When showerhead-to-disk height reduces, buoyancy-induced flow and rotation-induced flow are suppressed. When showerhead-to-disk temperature increases, viscous force also increases. Therefore, the effect of rotation decrease. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#GT070251112 http://hdl.handle.net/11536/127320 |
顯示於類別: | 畢業論文 |