Download Nanoelectronics and Photonics: From Atoms to Materials, by Nicolaas Bloembergen (auth.), Anatoli Korkin, Federico Rosei PDF

By Nicolaas Bloembergen (auth.), Anatoli Korkin, Federico Rosei (eds.)

Nanoelectronics and Photonics: From Atoms to fabrics, units, and Architectures presents an outline of the center components and demanding situations of complex and destiny info know-how. by way of linking the fabrics physics and chemistry on the atomic scale with machine and circuit layout and function standards, instructional chapters from leaders within the box current a coherent photograph of theoretical and experimental study efforts and know-how improvement during this hugely interdisciplinary zone. brief visionary articles through Nicolaas Bloembergen, Nobel Laureate in Physics (1981), Konstantin Likharev, exotic professor at Stony Brook collage, and Stanley Williams, senior fellow and director of the Quantum technological know-how study team at Hewlett-Packard, supply exact views and insights. Nanoelectronics and Photonics isessential examining for researchers and graduate scholars in fabrics technology, equipment physics, and electric and machine engineering.

Key Features:

Provides an authoritative evaluate of the present prestige and destiny traits of nanoelectronics and photonics

Presents broad-ranging tutorials on either theoretical and experimental points of key subject matters in nanotechnology

Written by way of well-known foreign specialists in each one area

Addresses the desires of either graduate scholars and nanotechnology “gurus”

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Extra info for Nanoelectronics and Photonics: From Atoms to Materials, Devices, and Architectures

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Also note that a modest misalignment of the pin and the breaks (by $FCMOS ) reduces the circuit performance only by a small factor of the order of 1= ( 1. B. Strukov (a) A B (b) H A B nanodevices RON Cwire H H CMOS inverter Rpass pass transistor A B (c) E A B C D E F G D G H F H A B C (d) A A B B D H C C H D Fig. 15 Logic and routing primitives in CMOL FPGA circuits: (a) equivalent circuit of fan-in-two NOR gate, (b) its physical implementation in CMOL, (c) the example of 7-input NOR gate, and (d) the example of fan-out of signal to four cells.

5). The area interface without nanometer-scale pins is suggested recently in HP’s FPNI circuits [42]. According to the authors, such FPNI circuits are a generalization of the CMOL FPGA approach, allowing for simpler fabrication and more conservative process parameters. More specifically, authors indicate that the sharply pointed interface pins with nanometer-scale top radii present a fabrication challenge and at the initial stage it is easier to replace them with CMOS-scale pins. For such change, the nanowire crossbar requires CMOS-scale alignment with respect to CMOS subsystem and will be much sparser than the original used in CMOL (Fig.

The key point in this proposal is that the interface yield can be up to 100% without any overlay alignment between nano and CMOS layers if the vertical gap wgap between CMOS openings and its height is exactly equal to nanowire width wnano and nanowire spacing sspace , correspondingly. Clearly, the idea behind it is the same as that of CMOL, if one replaces CMOS area openings with CMOS pillars. Shift along the top level: fine fine bad? bad! fine fine fine fine fine Shift along the bottom level: Fig.

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