2012
DOI: 10.1561/1300000045
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Fundamentals of Electromagnetic Nanonetworks in the Terahertz Band

Abstract: Nanotechnology is providing a new set of tools to the engineering community to design nanoscale components with unprecedented functionalities. The integration of several nano-components into a single entity will enable the development of advanced nanomachines. Nanonetworks, i.e., networks of nanomachines, will enable a plethora of applications in the biomedical, environmental, industrial and military fields. To date, it is still not clear how nanomachines will communicate. The miniaturization of a classical an… Show more

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Cited by 26 publications
(11 citation statements)
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“…The second issue to be considered is materials to be used for antenna design and feeding. Some interesting results achieved for the nano-antenna industry [216], [219], [220], power consumption and radiated power, operating band and directivity are the main properties of antenna [221]. The mutual coupling is also an important challenge to address due to ultra-dense integration of multi-band nanoantenna arrays.…”
Section: ) Physical Layer and Device Related Issues And Considerations (Antenna Technology)mentioning
confidence: 99%
“…The second issue to be considered is materials to be used for antenna design and feeding. Some interesting results achieved for the nano-antenna industry [216], [219], [220], power consumption and radiated power, operating band and directivity are the main properties of antenna [221]. The mutual coupling is also an important challenge to address due to ultra-dense integration of multi-band nanoantenna arrays.…”
Section: ) Physical Layer and Device Related Issues And Considerations (Antenna Technology)mentioning
confidence: 99%
“…In this work, we model graphene microstrip as a plasmon resonant cavity. As discussed in 28 , a resonant cavity of graphene will necessitate the following dimensional constraints to be satisfied…”
Section: B Microstrip Antennas With Graphene Plasmon Resonant Cavitymentioning
confidence: 99%
“…As the frequency of operation increases, electrical interconnects also suffer from signal distortion resulting from interconnect dispersion, which sets an upper bound on the maximum achievable signal bandwidth [10]. Going forward, terahertz (THz) band communication is envisioned as a key wireless technology to handle bandwidth-greedy applications and delay-critical communication needs for next-generation systems [11,12].…”
Section: Introductionmentioning
confidence: 99%