_ Nanoplasmonics and Nanoelectronics Model Section 

Investigating how to  further compress structures (electronic devices and gadgets) with the help of plasmonics

Researcher  and Author: Dr.   (   Afshin Rashid)



Note: Further compaction of the structure of electronic devices and gadgets with the help of plasmonic science has led to the study and use of plasmonic structures and plasmonic waves. These nanostructures consist of metal and dielectric whose dimensions are below the excitation wavelength (the wavelength of the radiation that excites the plasmonic waves).

Plasmonic is based on the interaction process between electromagnetic waves and conduction electrons in metals with nano-sized dimensions.  Analytically, the reason for the rapid energy loss of electrons when passing through metals is that this energy is spent on the cumulative and oscillatory motion of free electrons in the metal and is called plasmon.  With the technological approach towards the accumulation of optoelectronic circuits, the problems of manufacturing and the phenomena that helped prevent further compression of the structure, caused the use of plasmonic structures and plasmonic waves to be investigated and used. These nanostructures consist of metal and dielectric whose dimensions are below the excitation wavelength (the wavelength of the radiation that excites the plasmonic waves).



In electronic sciences, the topic of nano is centered around (nano memories; nanochips and fast nanochips and nanoelectronic components) with less weight and more efficiency.  Nanotechnology is the science, engineering and technology at the nanoscale or in other words, the study of the application of very small objects and their use in all fields of science such as chemistry, biology, electronics; materials science and engineering. The history of nanotechnology describes the development of concepts and experimental work carried out in the field of nanotechnology. Although nanotechnology is one of the recent advances in scientific research, the development of its fundamental concepts has occurred over a long period. Various types of nanotechnologies, such as  further compaction of the structure of electronic devices and appliances,  etc., cannot cope with all the practical demands of industrial applications in terms of high resolution, high power, low cost, large area and patterns on non-flat and curved surfaces.  Therefore, new high-volume nanoproduction technology is in dire need of exploitation and development to meet the extraordinary needs of growing markets.


Conclusion: 

The further compaction of electronic devices and devices with the help of plasmonics has led to the study and use of plasmonic structures and plasmonic waves. These nanostructures consist of metal and dielectric whose dimensions are below the excitation wavelength (the wavelength of the radiation that excites the plasmonic waves).

Researcher  and Author: Dr.   (   Afshin Rashid)

Specialized PhD in Nano-Microelectronics