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The carbon nanotube field-effect transistor (CNTFET) is a promising device to supersede the MOSFET at the end of the technology roadmap of the CMOS. When designing and manufacturing a CNTFET, additional features such as pitch, number, and position of the CNTs must be considered to assess its performance. One of the defect types that can occur when fabricating a CNTFET is the absence of some CNTs following...
To have a large inductance by smaller inductors is a challenge. Since Q depends on L and R, as we scale down value of Q decreases which is not desired. To succeed in producing a useful micro/nano-scale inductor a different fabrication approach and a new material is needed. Also a new approach using MWCNT may solve the problem. This paper proposes a model of MWCNT which can be used for high Q factor...
Carbon Nano Tube (CNT) is one of the several cutting edge emerging technologies within Nano technology, that is showing high efficiency and very wide range of applications in many different streams of science and technology. The Carbon Nano Tube Field Effect Transistors (CNTFETs) have been explored and proposed to be the promising candidate for the next generation of integrated circuit (IC) devices...
The Carbon NanoTube Field Effect Transistor (CNTFET) is a promising device to supersede the MOSFET at the end of the technology roadmap of CMOS. When designing and manufacturing a CNTFET, additional features such as pitch, number and position of the CNTs must be considered to assess its performance. One of the defect types that can occur when fabricating a CNTFET, is the absence of some CNTs following...
Micro and nano-particles can be trapped by a non uniform electric field through the effect of dielectrophoretic principle. Dielectrophoresis (DEP) is used to separate, manipulate and detect micro particles in several domains, such as in biological or Carbon Nano-Tubes (CNTs) manipulations. Current methods to simulate the trajectory of micro-particles under a DEP force field are based on Finite Elements...
We have analyzed the effect of innovations in Nanotechnology on Wireless Sensor Networks (WSN) and have modeled Carbon Nanotube (CNT) and Micro-Electro-Mechanical Systems (MEMS) based sensor nodes. SUGAR library in MATLAB has been used to illustrate the static analysis of deflection, display the structure and to compute the displacement parameters of a cantilever beam subjected to an external force...
This paper addresses the problem of scaling interconnects to nanometric dimensions in future VLSI applications. Traditional copper interconnects are compared to innovative ones made by bundles of metallic carbon nanotubes. A new model is presented to describe propagation along CNT bundles, in the framework of the classical transmission line theory. A possible future scaled CNT bundle microstrip is...
Carbon nanotube transistor (CNT) is promising to be the technology of choice for nanoscale integration. In this work, we develop the first compact model of CNT, with the objective to explore the optimal process and design space for robust low-power applications. Based on the concept of the surface potential, the new model accurately predicts the characteristics of a CNT device under various process...
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