Nanoelectronics: Principles and Devices
Not only will nanoelectronics dominate electronics research for years to come, it promises to produce some of the most extraordinary advances in all of applied science. This groundbreaking book provides the first unified treatment of the research, technology, and applications that are fueling the rapid growth of nanoelectronics today. It brings together the physics, quantum mechanics, chemistry, biology, and electronics now blazing new trails - both in the development of nanodevices and in our understanding of physical phenomena never before seen at larger scale. This comprehensive work provides engineers and researchers with a solid foundation for the understanding, design, and simulation of nanoelectronic devices.
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Instrumentation for Nanoscale Electronics
Carbon Nanotube Devices
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2DEG Appl applied array atomic ballistic band bandgap barrier bias cantilever carbon nanotubes channel charge circuit CNTFET conductance configuration Coulomb blockade coupled density dependence deposited detection diameter diode doping drain effect electric field electron spins electron wavefunction energy fabricated Fermi level film force frequency function gate voltage HEMT heterostructure IEEE increases interaction interface laser layer length Lett lithography logic magnetic field materials mechanical metallic CNT mode modulation molecular molecules MOSFET nanoelectronics nanoparticles nanoscale nanosized nanostructures Nanotechnology nanowires optical optoelectronic optoelectronic devices oscillations particles phonon Phys potential propagation quantum computing quantum dots quantum wires qubit Rashba regime region represented in Figure resistance resonant tunneling room temperature scattering self-assembly semiconducting CNT semiconductor shown in Figure silicon spin injection spin polarization spintronic structure subbands substrate superlattices surface SWCNT switching techniques thermal transistor transmission probability transport wavefunction wavelength