The pattern of systems (nano and microelectricand mechanical MEMS)is one of the miniaturization techniques in the design of nanodevices such as nanotransistors and nanodiodes

_ Department of systems (nano and microelectric and mechanical  MEMS )  

The pattern  of systems (nano and microelectricand mechanical MEMS)   is one of the miniaturization techniques in  the design of nanodevices such as nanotransistors and nanodiodes, nanoswitches and nanologic gates. 

Researcher  and author: Dr.   (   Afshin Rashid)

Note: patterning  of systems (nano and microelectromechanical MEMS)   is one of the techniques of pattern miniaturization, especially for electronic devices. Today, by using  (nano and microelectromechanical MEMS),  it has become   a standard in  the miniaturization of patterns in  the design of nanodevices such as nanotransistors and nanodiodes, nanoswitches and nanologic gates  . It generally uses lithographic methods, but many techniques have been developed. Batch fabrication of microstructures requires a low-cost, high-throughput surface pattern.

The pattern  (nano and microelectric and mechanical MEMS)  is one of the miniaturization techniques of patterns in  the design of nanodevices such as nanotransistors and nanodiodes, nanoswitches and nanological gates, in order to design nanoscale computers with very important dual scale capabilities. Is. All living biological systems function due to the molecular interactions of various subsystems. The constituents and constituents of  pattern miniaturization techniques in  the design of nanodevices such as nanotransistors and nanodiodes, nanoswitches and nanologic gates   can be used as an inspiring strategy on how to design NEMS and MEMS with High performance that has the required features and characteristics is considered. In addition, analytical and numerical methods are available to analyze the dynamics and three-dimensional geometry, bonding, and other properties of atoms and molecules. Therefore, electromagnetic and mechanical, and other physical and chemical properties can be studied. Nanostructures and nanosystems can be widely  used  in the construction of systems (nano and microelectrical and mechanical MEMS)  .

(Nano and Microelectromechanical  MEMS )  is a branch of nanotechnology that deals with the study and application of nanostructures of nanometer-scale structures, meaning nanopatterns with at least one lateral dimension between the size of an individual atom and approximately 100  nanometers . But nowadays, whenever this term is related to nanoelectronics technology, we understand something different. (Nano and Microelectromechanical  MEMS )  is used, for example, during the nanofabrication of advanced semiconductor integrated circuits (nanocircuits), for nanoelectromechanical systems (MEMS) or for almost any other basic application in various scientific fields in the field of nanosearch . .This technology can be used in nano-production of all kinds of semiconductor integrated circuits (IC), MEMS and for various applications in research.  It is also possible  to modify semiconductor chips on the nano scale (in the range of  ^{9-10 m).}

Conclusion :

Patterning  of systems (nano and microelectromechanical MEMS)   is one of the miniaturization techniques of patterns, especially for electronic devices. Today, by using  (nano and microelectromechanical MEMS),  it has become   a standard in  the miniaturization of patterns in  the design of nanodevices such as nanotransistors and nanodiodes, nanoswitches and nanologic gates  . It generally uses lithographic methods, but many techniques have been developed. Batch fabrication of microstructures requires a low-cost, high-throughput surface pattern.

Researcher  and author: Dr.   (   Afshin Rashid)

Specialized doctorate in nano-microelectronics