(Nanoelectronics - Plasmonics) Further compression of the structure of electronic devices and tools with the help of plasmonic science
Researcher and author: Dr. ( Afshin Rashid)
Note: Further compression of the structure of electronic devices and tools with the help of plasmonic science , led to the use of plasmonic structures and plasmonic waves to be studied and used. These nanostructures are composed of metal and dielectric, the dimensions of which are below the excitation wavelength (the wavelength of the beam that excites the plasmonic waves).
Plasmonics is based on the process of interaction between electromagnetic waves and conducting electrons in nanoscale metals. Analytically, it is the reason for the rapid decrease in the energy of electrons in the passage of metals, and concluded that this energy is used for the cumulative motion and oscillation of free electrons of metal, and called it plasmon. With the technology approach to the aggregation of optical electronic circuits, fabrication problems and phenomena that helped prevent further compression of the structure led to the use of plasmonic structures and plasmonic waves. These nanostructures are composed of metal and dielectric, the dimensions of which are below the excitation wavelength (the wavelength of the beam that excites the plasmonic waves).
In electronics, the topic of nano-axis (nano-memory; nano-chips and nano-fast chips and nano-electronic components) is less weighty and more efficient. Nanotechnology, science, engineering and technology at the nanoscale or in other words and the study of the use 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 in the field of nanotechnology. Although nanotechnology is one of the recent advances in scientific research, the development of its basic concepts has taken place over a long period of time. Types of nanotechnologies such as further compression of the structure of electronic devices and tools Etc., can not cope with all the application demands of industrial applications in terms of high resolution, high power, low cost. , Large area and olgoes on uneven and curved surface. Therefore, new high-volume nano-production technology is in dire need of exploitation and development to meet the tremendous needs of emerging markets.
Conclusion :
Further compression of the structure of electronic devices and tools with the help of plasmonic science led to the study and use of plasmonic structures and plasmonic waves. These nanostructures are composed of metal and dielectric, the dimensions of which are below the excitation wavelength (the wavelength of the beam that excites the plasmonic waves).
Researcher and author: Dr. ( Afshin Rashid)
PhD in Nano-Microelectronics