Delta Doping in Si and SiGe by LP(RT)CVD

B. Tillack, J. Schlote, G. Ritter, D. Krüger, G. Morgenstern, P. Gaworzewski
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引用次数: 1

Abstract

Sharp profiles of boron were prepared by Low Pressure (Rapid Thermal) Chemical Vapor Deposition (LP(RT)CVD). Two different approaches for the delta doping were used. In the first case the dopants were incorporated into the growing film. The process was kinetically controlled. By this way B-delta-layers with a steepness of 1.7 nm/decade were measured by Secondary ion mass spectrometry (SIMS) for the profiles prepared. In the second case the doping was performed during an interruption of layer growth. The process was controlled by the surface adsorption equilibrium of dopants. Using this regime B-delta-layers of 1 monolayer and with a steepness of 1.4 nm/decade were obtained in SiGe. The values of the estimated steepness represent an extremely sharp profile for a CVD process. Structural properties of the delta-doped layers were investigated using cross sectional transmission electron microscopy (XTEM). The steepness estimated by SIMS was compared with high depth resolution spreading resistance (SR) measurements which detect the electrical active boron only.
LP(RT)CVD法掺杂Si和SiGe
采用低压(快速热)化学气相沉积(LP(RT)CVD)法制备了硼的尖锐轮廓。采用了两种不同的方法进行delta掺杂。在第一种情况下,掺杂剂被掺入生长膜中。这个过程是动力学控制的。用次级离子质谱法(SIMS)对制备的谱图进行了陡度为1.7 nm/decade的b - δ层的测量。在第二种情况下,掺杂是在层生长中断期间进行的。该过程由掺杂剂的表面吸附平衡控制。在此条件下,在SiGe中获得了厚度为1.4 nm/decade的单层b - δ层。估计的陡度值代表了CVD过程的一个非常尖锐的轮廓。利用横断面透射电镜(XTEM)研究了掺杂层的结构特性。将SIMS估算的陡度与仅检测电活性硼的高深度分辨率扩展电阻(SR)测量结果进行了比较。
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