Application of tunneling quantum nanostructures in the formation of resonant nanodiodes (Si and Gi)

Application of tunneling quantum nanostructures in the formation of resonant nanodiodes (Si and Gi) (PhD in nano-microelectronics)

Researcher  and author: Dr.   (   Afshin Rashid)

Note: In nanoelectronics technology, underlying surface processes (Si and Gi) such as combustion are performed by plasma technology and ion beam. Such integrated circuits with their unique properties at the nanometer scale have a variety of applications of (mesoscopic) systems.

Characterization of Si / Gi multilayer systems Recently, there has been a negative bias voltage effect on improving  the nanoelectric and structural properties of the Sputtering Ta layer penetration barrier in the Si / Ta nano system. Also in the technology of designing nano-electronic components  by using and fabricating the thin layers required in the mentioned integrated circuits only in  environments defined by precise layering methods such as molecular beam layering (MBE) and chemical vapor layering of metallic organic materials  (MOCVD). ) It is possible.

 

Basically, semiconductor-metal connections are a prerequisite for all nano-electronic components. The behavior of nanoelectric joints depends on the surface concentration of the semiconductor  (Si) and (Gi) surface cleanliness and the reactions between the metal-semiconductor interface. After the invention of nanotransistors, the concept and importance of integrated circuits became clear. After that, the great success of assembling and connecting a large number of small components and electronic components on the substrate created a huge change in the practical construction of integrated circuits. With the invention and development of technology for miniaturizing nano-microelectronic components, it is possible to use the fabrication of tunneling quantum nanosystems in amplified nanodiodes (Si and Gi) and other nanoparticles.

Conclusion : 

With the expansion, design and construction of integrated nanocircuits, especially the increase in the accumulation of components on a very large scale and the attempt to make micro-electronic components smaller, continued. On the other hand, the new demand for integrated circuits, especially memory nano-circuits, including dynamic nano-memory (DRAM) and static memory (SRAM) with features such as high operating speed while reducing power dissipation, increased day by day  . In the evolution of the technology of foraminatorization of electronic nanoparticles, especially in geometry and sub-micron scale less than 2.0 micrometers, ie the field of nanotechnology component design technology and manufacturing technology based on Gi and Si nanostructures integrated nanostructures has a special complexity.

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics