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Books by Keyword: Atomic Force Microscope (AFM)
Books
Edited by:
G. Pensl, H. Morkoç, B. Monemar and E. Janzén
Online since: February 1998
Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
This two-volume set documents the present understanding of many topics of interest, such as the growth of bulk crystals, the growth of epitaxial layers, theoretical modelling, the characterization of as-grown material, the development of suitable processes and of electronic devices which can operate under extreme conditions and exhibit outstanding properties.
This two-volume set documents the present understanding of many topics of interest, such as the growth of bulk crystals, the growth of epitaxial layers, theoretical modelling, the characterization of as-grown material, the development of suitable processes and of electronic devices which can operate under extreme conditions and exhibit outstanding properties.
Edited by:
Aldo Ferrari
Online since: August 1997
Description: This volume presents the most recent results concerning the various approaches to obtaining light emission from silicon.
This dream of silicon technologists is inspired by the fact that an efficient and stable silicon light emitting device would open the way to the production of monolithic optoelectronic integrated circuits, that were based entirely upon silicon. In fact, some of the main building blocks of optoelectronic devices, such as waveguides and photodetectors have already been developed by using silicon technology. The above possibility would sharply reduce the price of optoelectronic circuits as compared with hybrid ones.
This dream of silicon technologists is inspired by the fact that an efficient and stable silicon light emitting device would open the way to the production of monolithic optoelectronic integrated circuits, that were based entirely upon silicon. In fact, some of the main building blocks of optoelectronic devices, such as waveguides and photodetectors have already been developed by using silicon technology. The above possibility would sharply reduce the price of optoelectronic circuits as compared with hybrid ones.