(Nano Telecommunication) Nano  Rectenna Rectenna  Transfer power in the  microwave band 

Researcher  and author: Dr.   (   Afshin Rashid)



Note: It should be noted that Rectna has been studied in recent years, especially in the field of power transmission in the  microwave band. For example, in theory,  for a single frequency of 9.2 GHz, more than 10% efficiency is predicted  

Of course, the practical efficiency of making these devices may  be slightly different and must be determined in practice. A dipole antenna with linear polarization  and a length of 2 / λ, which has a relative bandwidth of 11%, will be able to  collect about 75.2 pW  With  regard to the low received power independent of each antenna, using an array of antibiotics  in these cells is customary laws and its own procedures  there.





One of the problems that has not yet been well solved in nanotechnology  is how to establish an electrical connection between nano- electronic equipment  and the macroscopic world without losing the capabilities  of these nano-elements. One of these areas and new applications of nanotechnology are nano-antennas  , which are used in various fields such as nanosensors, nano- communication networks  , electricity generation and other similar topics and  as one of the fields of the day. The development of nanotechnology are important. At nanoscale, graphene-based antennas are used to transmit EM waves  Graphene is a very thin single-atom plate  of limited carbon atoms placed on a crystal lattice. اند. Due to the very low dimensions of nano-sensors, nano-antennas need a very high operating frequency to be usable  However, the use of  graphene greatly helps to solve this problem. Due to the  development of technology for manufacturing equipment in nano-dimensions, it is possible to make nano antennas and  use them in various applications. Communication between nano-devices is a major challenge related to the development of nano-antennas and related electromagnetic receivers. Reducing the size of a traditional  antenna  to hundreds of nanometers leads to  very high operating frequencies At THz band frequencies, the very large bandwidth available leads to the loss of a much higher path than the lower frequency bands.  



Conclusion : 

It should be noted that Rectna has been studied in recent years, especially in the field of power transmission in the  microwave band. For example, in theory,  for a single frequency of 9.2 GHz, more than 10% efficiency is predicted  

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics