The integration of atomic physics with quantum device technology contributed to the exploration of the field of single electron nanoelectronics originally developed in single electron quantum dots. Here the basic concepts of single electron nanoelectronics, including key aspects of architectures, quantum transport in silicon devices, single electron transistors, few atom devices, single charge/spin dynamics, and the role of valleys and bands are reviewed. Future applications in fundamental physics and classical and quantum information technologies are discussed, by highlighting the critical aspects which currently impose limits to the most advanced developments at the 10-nm node.
Single electron effects in silicon quantum devices / E. Prati. - In: JOURNAL OF NANOPARTICLE RESEARCH. - ISSN 1388-0764. - 15:5(2013 Apr 07), pp. 1615.1-1615.10. [10.1007/s11051-013-1615-4]
Single electron effects in silicon quantum devices
E. Prati
Primo
2013
Abstract
The integration of atomic physics with quantum device technology contributed to the exploration of the field of single electron nanoelectronics originally developed in single electron quantum dots. Here the basic concepts of single electron nanoelectronics, including key aspects of architectures, quantum transport in silicon devices, single electron transistors, few atom devices, single charge/spin dynamics, and the role of valleys and bands are reviewed. Future applications in fundamental physics and classical and quantum information technologies are discussed, by highlighting the critical aspects which currently impose limits to the most advanced developments at the 10-nm node.
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