(Nano Telecommunication) Molecular nano- communication is a communication method such as 0 to 10 nm

(Nano Telecommunication) Molecular nano-  communication is  a communication method  such as 0 to 10 nm (PhD in nano-microelectronics)

Researcher  and author: Dr.   (   Afshin Rashid)

Note: Molecular nanocommunication is  a natural method of communication used by living organisms (for example, it communicates via pheromones) and is predicted to become a portable method for future nanotechnologies. Be. 

The concentration of the molecule in close proximity to the receiver may be used to understand the transmitted molecular bit transmitter. Quantum communication is   based on the transfer of tangled pairs from one place to another through exchange, repetition, and refinement. Quantum interference or quantum parallelism gives us enormous computing power, especially in source coding, where information about the entire content is required instead of individual inputs. FRET is a non-radiative energy transfer process between fluorescent molecules based on the dipole-dipole interactions of molecules. Energy is rapidly transferred from a donor to an accepting molecule in close proximity, such as 0 to 10 nm, without photon radiation. Low dependence on environmental factors, control of its parameters and relatively wide transmission range make FRET used for high-speed nanoscale communication channel.

Nano-antennas do not communicate at MHz frequencies, and higher-energy waves are needed to control large numbers of nano-equipment over a very large area. For this reason, nano-devices are connected in frequencies around 1.0 to 10 terahertz. Due to the severe limitation of nano-devices in terms of size and energy, the production of high power signals in the frequency of terahertz is not operational. Therefore, classical communication patterns based on continuous signal communication can not be implemented and for time WNSNs, short-time pulse modulation techniques (OOK-TS: Keying Off-On) are used. These techniques are especially used in cases such as the Internet of Things. Wave as information carriers similar to classical communications. However, due to the severe shortage of resources and the quantum effects of materials, classical methods can not be applied directly in the field of nanotechnology. Therefore, it is necessary to use new materials and techniques. There are several nanotechnology technologies that  require the use of external excitation and measurement to work.  Wireless communication between nano-networks and micro and macro devices and equipment can  meet this need.

Conclusion : 

There are several nanotechnology technologies that  require the use of external excitation and measurement to work.  Wireless communication between nano-networks and micro and macro devices and equipment can  meet this need.

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics