The nonstop scaling of Metal-Oxide-Semiconductor Field-Effect Transistors (MOSFETs) is considered a driving force in semiconductor technology, allowing higher integration densities, enhanced performance, and reduced power consumption. However, fundamental challenges arise as device dimensions shrink to the nanoscale, such as short-channel effects, threshold voltage variation, leakage currents, and gate oxide tunneling. This study critically surveys these scaling limitations and shows potential solutions, such as high-k gate dielectrics, metal gate integration, and novel device architectures. Other transistor designs, including FinFETS, Gate-All-Around (GAA) transistors, and emerging beyond-CMOS devices, are assessed for their potential to extend Moore's Law. This study also addresses advancements in materials, including two-dimensional (2D) semiconductors and carbon-based nanostructures, that offer promising substitutes to conventional silicon technology. Regardless of these innovations, significant obstacles remain in achieving fabrication, reliability, and cost-effectiveness at sub-5nm nodes. This review paper provides insights into current progress and future guide for nanoscale MOSFET development, comprehensively assessing the challenges and opportunities in next-generation transistor technology. The findings aim to guide researchers and industry professionals toward sustainable semiconductor scaling approaches.
The research is interested in the noise sources that occur inside the cities. That the human being are subjected inside there homes, the way it maybe transfer and the way to treat this problem and control it by achieving a good planning to the city before the construction starts. The architecture role appears when planning the cities by defining the best way to use the land for and find the practical balance between the noise pollution the land suffer from. And also to indicate the locations of the housing area. in addition to locate the external and internal noise sources and put successful solutions to treat and control it by planning and design. A housing area at AL-SAQLAWIA a city near AL-ANBAR TECHNICAL INSTITUT was studied by distributing a (100) questionnaires for the people living at this area to recognize their opinion about the noise sources inside and outside their homes and how far it affect their life to find a table with conclusion about this object which contain a comparison between the house location near the street and far a way the street and transfer the results into graphs to explain the relation between the noise sources and the percentage ratio for the opinions of the living people.
The Cooper-Harper rating of aircraft handling qualities has been adopted as a standard for measuring the performance of aircraft. In the present work, the tail plane design for satisfying longitudinal handling qualities has been investigated with different tail design for two flight conditions based on the Shomber and Gertsen method. Tail plane design is considered as the tail/wing area ratio. Parameters most affecting on the aircraft stability derivative is the tail/wing area ratio. The longitudinal handling qualities criteria were introduced in the mathematical contributions of stability derivative. This design technique has been applied to the Paris Jet; MS 760 Morane-Sualnier aircraft. The results show that when the tail/wing area ratio increases the aircraft stability derivative increases, the damping ratio and the natural frequency increases and the aircraft stability is improved. Three regions of flight conditions had been presented which are satisfactory, acceptable and unacceptable. The optimum tail/wing area ratio satisfying the longitudinal handling qualities and stability is (0.025KeywordsLongitudinal Handling---Stability---Tail Design