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Physical damages to Si substrate induced by energetic ions from plasma, associated with Si recess, is studied. By using molecular dynamics (MD) simulation, we clarified the structural picture of the damage. By spectroscopic ellipsometry (SE) measurements, we experimentally analyzed damaged layer thickness and energy band structure. Comprehensive analysis of the damage suggests device performance degradation...
Plasma process-induced recess structure and the latent defect site density are quantitatively evaluated in detail by using optical and electrical methods combined with a classical molecular dynamics (MD) simulation. A new framework is proposed and demonstrated for predicting the relationship between plasma process parameters and MOSFET performance degradation.
Polarities of plasma charging damage in n- and p-channel MOSFETs with Hf-based high-k gate stack (HfAlOx/SiO2) were studied for two different plasma sources (Ar-and Cl-based gas mixtures), and found to depend on plasma conditions, in contrast to those with conventional SiO2. For Ar-plasma, which was confirmed to induce a larger charging damage, both n- and p-ch MOSFETs with high-k gate stacks suffer...
Plasma-exposed Si surface related to Si recess in source/drain region was investigated in detail for various superposed bias configurations with frequencies of 13.56 MHz and 400 kHz. Two different bias powers were utilized by an inductively coupled plasma reactor (ICP). The surface layer (SL) and the interfacial layer between the SL and Si substrate (IL) were analyzed by spectroscopic ellipsometry...
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