Ju-Hee Lee scite author profile

As transistor sizes reduce, the effect of contact resistivity on power consumption increases. To reduce contact resistivity, heavily phosphorus‐doped Si grown via in situ phosphorus‐doped (ISPD) Si epitaxial growth is studied actively. Laser spike annealing to the heavily phosphorus implanted (IMP) layers is demonstrated to replace ISPD Si epitaxial growth process and phosphorus profiles and strain characteristics are evaluated. Regardless of the doping method, the phosphorus concentrations of both samples and their tensile strains are equivalent. After laser annealing, the metal‐silicidation is conducted to measure contact resistivity. The Ni‐silicide formed on IMP sample has 3D clusters inducing greater morphological degradation than ISPD samples. The contact resistivity of IMP sample measured using the circular transmission line model (CTLM) (1.2–8.3 × 10−8 Ω cm2) is similar to that of the ISPD sample (1.1–5.5 × 10−8 Ω cm2) after Ni‐silicidation of the ISPD layer. This study performs strain engineering by achieving low contact resistance at lower cost while applying strain using the IMP process rather than the epitaxial process.

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Study on the unification between KS I ISO standard and official test method enacted by Korean Ministry of Environment - drinking water and indoor air quality -

Lee¹,

Lee²,

Lee³

et al. 2012

Analytical Science and Technology

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Ju-Hee Lee

Characteristics of GMR-SV Sensor for Measurement of Mineral Contents in Edible Water

Comparison of Strain Characteristics and Contact Resistances of Heavily Phosphorus‐Doped Si Formed by Phosphorus Implantation and In Situ Phosphorus‐Doped Si Epitaxial Growth

Study on the unification between KS I ISO standard and official test method enacted by Korean Ministry of Environment - drinking water and indoor air quality -

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