Structure of an In Situ Phosphorus-Doped Silicon Ultrathin Film Analyzed Using Second Harmonic Generation and Simplified Bond-Hyperpolarizability Model

Abstract: In fabricating advanced silicon (Si)-based metal–oxide semiconductors, the ability to inspect dopant distribution in Si ultrathin films (tens of nm) is crucial for monitoring the amount of dopant diffusion. Here, we perform an anisotropic reflective second harmonic generation (SHG) measurement to demonstrate the sensitivity of SHG to phosphorus (P) concentration within the range of 2.5×1017 to 1.6×1020 atoms/cm3. In addition, we propose an analysis method based on a simplified bond-hyperpolarizability model to… Show more

“…Yen, Y. H. Hung, and K. Y. Lo, perform an anisotropic reflective second harmonic generation (SHG) measurement to demonstrate the sensitivity of SHG to phosphorus (P) concentrations within the range of 2.5 × 10 17 to 1.6 × 10 20 atoms/cm 3 [ 10 ]. Combined anisotropic reflective SHG (Ani-RSHG) and the simplified bond–hyperpolarizability model (SBHM) can analyze the crystal structures of doped ultrathin films and provide a non-destructive nanophotonic method of in-line inspection.…”

Special Issue on the State-of-the-Art Optical Properties and Applications of Metallic Nanostructures in Asia

“…Yen, Y. H. Hung, and K. Y. Lo, perform an anisotropic reflective second harmonic generation (SHG) measurement to demonstrate the sensitivity of SHG to phosphorus (P) concentrations within the range of 2.5 × 10 17 to 1.6 × 10 20 atoms/cm 3 [ 10 ]. Combined anisotropic reflective SHG (Ani-RSHG) and the simplified bond–hyperpolarizability model (SBHM) can analyze the crystal structures of doped ultrathin films and provide a non-destructive nanophotonic method of in-line inspection.…”

Special Issue on the State-of-the-Art Optical Properties and Applications of Metallic Nanostructures in Asia

Gas Adsorption Mechanism on 2D Materials: The Hyperpolarizability Evolution Analyzed by Nonlinear Optics