Quantum electrical nano memories

A complete investigation of the internal structure of nano molecular quantum electrical memories 

Researcher  and author: Dr.   (   Afshin Rashid)


Note: Older circuits on chips rely on electrons as information carriers. In the future, photons that transmit information in optical circuits at the speed of light can also take over this task. The main building blocks of such new nanochips are quantum light sources, which are then connected to nano-quantum optical waveguides and detectors.

In  the building blocks of nanomolecular quantum memories,  light sources must be coupled to photonic circuits, such as waveguides, to enable light-based quantum computing. The decisive factor here is the precise and controllable placement of light sources. In conventional 3D materials. There are also active quantum light sources like diamond or silicon, but they can't be placed exactly there. By using the structure of nanomolecular memory , the size of the memory bits can be basically reduced, thereby increasing the density of the magnetic memory and its efficiency, and lowering its cost. Nano lithography methods are now being used to prepare some very powerful memories. Science and technology of nanoelectronics possibilities They offer different nano molecular memories  For example, photorefractory materials represent only one type of optical memory. In fact, by using nano technology, the storage capacity of information can be increased by a thousand times or more. Storing subject information is very important and necessary, which can be done in different ways through  nanomolecular memories   . One of the new information storage tools is the use of nickel quantum dots in nanometer sizes, which are expected to be used to store terabytes of data. According to  nano molecular memories,  there is a high potential for activity in this field.



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. In fact, by using nano technology, the storage capacity of information can be increased by a thousand times or more. The storage of subject information is very important and necessary, which can be done in different ways through  nano cloud  memories  . One of the new information storage tools is the use of nickel quantum dots in nanometer sizes, which are expected to be used to store terabytes of data. According to  the cloud  of nano memories,   there is a high potential for activity in this field.


Conclusion : 

Older circuits on chips rely on electrons as information carriers. In the future, photons that transmit information in optical circuits at the speed of light can also take over this task. The main building blocks of such new nanochips are quantum light sources, which are then connected to nano-quantum optical waveguides and detectors.

Researcher  and author: Dr.   (   Afshin Rashid)

Specialized doctorate in nano-microelectronics