The role  of nickel nanoparticles  NI_nanoparticle  in the internal structure of electronic quantum nano memories 

Researcher  and author: Dr.   (   Afshin Rashid)



Note: The range of activity of nanoparticles depends on the nature and shape of the nanostructure. However  , if the energy of the nanoparticle field is comparable to the energy of electromagnetic radiation and if  significant changes are made in a certain wavelength range with the occurrence of chemical reactions in the irradiated materials, the activity  of nanoparticles up to 100nm will be significant. One of the new means of information storage is the use of nickel quantum dots in nanometer sizes, which are expected to be used for storage. 

Quantum nanoscale  effects are important in most materials and create different properties than what we are familiar with at the macroscopic scale. Nanophysics forms the basis of many phenomena of medicine, biological sciences and chemistry and is an important interface with these sciences. Electronic and optical properties and surfaces of various materials are interesting and new. Nano-Quantum is based on the continuous development and refinement of nano-scale imaging techniques whose resolution reaches the atomic scale. Nanoelectronics enters into new materials and different fields of nutrition technology, (nano-scale measuring devices, tools for medical diagnosis, energy efficiency and storage and solar technology) Quantum physics phenomena can be done with electrons, atoms or Photons and observed in dense matter systems such as metals or semiconductors that play an important role in our daily life. In the nano-quantum world, we observe many surprising and at first glance unusual phenomena - such as quantum particles that cannot collide in different places at the same time, or quantum jumps whose exact timing is essentially random. . As confusing as these phenomena may seem, we are already seeing signs that will form the basis of the modern technological revolution. There is almost no other field of science that so seamlessly intertwines basic research and pure technological applications and revolutionary impact as nanoelectronics. 



Each quantum dot consists of a single ball of several hundred atoms that can have one of two magnetic states. This allows them to contain a single bit of information (zero or one), as is customary in machine computing. In conventional hard disks, the data bits must be spaced far enough apart to avoid reciprocation. Quantum dots act as completely independent units that are not structurally connected, so they can become somewhat closer to each other. Quantum dots act as completely independent units that are not structurally connected, so they can become somewhat closer to each other.



Conclusion : 

The range of nanoparticle activity change depends on the nature and shape of the nanostructure. However  , if the energy of the nanoparticle field is comparable to the energy of electromagnetic radiation and if  significant changes are made in a certain wavelength range with the occurrence of chemical reactions in the irradiated materials, the activity  of nanoparticles up to 100nm will be significant. One of the new means of information storage is the use of nickel quantum dots in nanometer sizes, which are expected to be used for storage. 

Researcher  and author: Dr.   (   Afshin Rashid)

Specialized doctorate in nano-microelectronics