The effect of process variations of a FinFET-based low noise amplifier (LNA) are mitigated by using the device in an independently driven mode, i.e. an independently driven double gate (IDDG) FinFET. A 45 nm gate ...The effect of process variations of a FinFET-based low noise amplifier (LNA) are mitigated by using the device in an independently driven mode, i.e. an independently driven double gate (IDDG) FinFET. A 45 nm gate length IDDG FinFET-based cascoded LNA, operating at 5 GHz, is designed and studied to assess the impact of process variation on the LNA performance metrics such as input impedance, gain and noise figure. Four geometrical parameters, gate length, channel width, gate oxide thickness and fin width, and one non-geometrical parameter, channel doping concentration, are considered in the study. The effect of these variations on the input impedance (the desired value is 50 f2 purely real) of the LNA is compensated by the second gate bias of the IDDG FinFET.展开更多
Copper oxide nanoparticles (CuO Nps) were successfully synthesized by solution combustion method using aqueous leaf extract of Rauvolfia serpentina as a fuel. The structure and morphology of the CuO nanoparticles (...Copper oxide nanoparticles (CuO Nps) were successfully synthesized by solution combustion method using aqueous leaf extract of Rauvolfia serpentina as a fuel. The structure and morphology of the CuO nanoparticles (Nps) were characterized by powder X-ray diffraction (PXRD), UV-visible spectroscopy (UV-visible), scanning electron microscopy (SEM), transmission electron microscopy (TEM), etc. The PXRD patterns reveal the formation of monoclinic phase with crystallite structure. SEM images indicate that the particles have sponge-like structure being highly porous and agglom- erated with large surface area. The average crystallite sizes were found to be in the range of 10-20 nm by Scherrer's method. The CuO Nps size was further confirmed by TEM. Further, CuO Nps exhibit good photocatalytic activity for the photodegradation of trypan blue dye, indicating that it acts as a promising semiconducting material. The antibacterial properties of CuO nanoparticles were investigated against pathogenic bacterial strains, namely Gram -ve Escherichia coli (NCIM-5051) and Pseudomonas desmolyticum (NCIM-2028) and Gram +ve bacteria Staphylococcus aureus (NCIM- 5022) using the agar well diffusion method.展开更多
Divalent europium(Ⅱ)-doped mesoporous silicon oxy-nitride materials, as a novel type of nanoscopic photoluminescent material, are studied in which the optically active luminescent centers are isolated within the po...Divalent europium(Ⅱ)-doped mesoporous silicon oxy-nitride materials, as a novel type of nanoscopic photoluminescent material, are studied in which the optically active luminescent centers are isolated within the pores. Colorless and transparent blue emitting luminous Eu2+-doped mesoporous silicon oxy-nitride materials were prepared from mesoporous silica via impregnation, nanocasting and nitrogen-assisted carbothermal reduction and nitridation method. The morphology and porosity of the silica remain unchanged during the synthesis process as revealed by SEM images and by nitrogen sorption studies. Photoluminescence studies reveal a strong blue emission band for Eu2+ centered at 425 nm with a quantum efficiency of 47%. The luminescent intensity is greatly influenced by the amount of co-dopant, AI3+ ions.展开更多
基金supported by the Defense Research Development Organization(DRDO),Government of India
文摘The effect of process variations of a FinFET-based low noise amplifier (LNA) are mitigated by using the device in an independently driven mode, i.e. an independently driven double gate (IDDG) FinFET. A 45 nm gate length IDDG FinFET-based cascoded LNA, operating at 5 GHz, is designed and studied to assess the impact of process variation on the LNA performance metrics such as input impedance, gain and noise figure. Four geometrical parameters, gate length, channel width, gate oxide thickness and fin width, and one non-geometrical parameter, channel doping concentration, are considered in the study. The effect of these variations on the input impedance (the desired value is 50 f2 purely real) of the LNA is compensated by the second gate bias of the IDDG FinFET.
基金University Grant Commission (UGC), New Delhi, for Major Research Project (UGC Letter No. 42-179/2013(SR) for financial support
文摘Copper oxide nanoparticles (CuO Nps) were successfully synthesized by solution combustion method using aqueous leaf extract of Rauvolfia serpentina as a fuel. The structure and morphology of the CuO nanoparticles (Nps) were characterized by powder X-ray diffraction (PXRD), UV-visible spectroscopy (UV-visible), scanning electron microscopy (SEM), transmission electron microscopy (TEM), etc. The PXRD patterns reveal the formation of monoclinic phase with crystallite structure. SEM images indicate that the particles have sponge-like structure being highly porous and agglom- erated with large surface area. The average crystallite sizes were found to be in the range of 10-20 nm by Scherrer's method. The CuO Nps size was further confirmed by TEM. Further, CuO Nps exhibit good photocatalytic activity for the photodegradation of trypan blue dye, indicating that it acts as a promising semiconducting material. The antibacterial properties of CuO nanoparticles were investigated against pathogenic bacterial strains, namely Gram -ve Escherichia coli (NCIM-5051) and Pseudomonas desmolyticum (NCIM-2028) and Gram +ve bacteria Staphylococcus aureus (NCIM- 5022) using the agar well diffusion method.
基金Project supported by the New Energy and Industrial Technology Development Organization(NEDO)National Institute of Advanced Industrial Science and Technology(AIST)
文摘Divalent europium(Ⅱ)-doped mesoporous silicon oxy-nitride materials, as a novel type of nanoscopic photoluminescent material, are studied in which the optically active luminescent centers are isolated within the pores. Colorless and transparent blue emitting luminous Eu2+-doped mesoporous silicon oxy-nitride materials were prepared from mesoporous silica via impregnation, nanocasting and nitrogen-assisted carbothermal reduction and nitridation method. The morphology and porosity of the silica remain unchanged during the synthesis process as revealed by SEM images and by nitrogen sorption studies. Photoluminescence studies reveal a strong blue emission band for Eu2+ centered at 425 nm with a quantum efficiency of 47%. The luminescent intensity is greatly influenced by the amount of co-dopant, AI3+ ions.
