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Proceedings Paper

Logic design for field-effect quantum transistors
Author(s): Victor I. Varshavsky; Masaaki Kosugi
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Paper Abstract

Wave Function Rearrangement Quantum Devices (WFR QD) make it possible to create CMOS-like circuits. The major problem of logic design for WFR QD is providing logically inverting conductivity in the upper and lower quantum wells. It is shown that when the quantum wells have collinear conductivity, one quantum device correctly realizes only self-dual Boolean functions. A new configuration of WFR QD is suggested in which the upper and lower quantum wells have orthogonal conductivity. In this case, when extra separation and conjaction pads are incorporated, one WFR QD can realize an arbitrary Boolean function in the parallel-serial form.

Paper Details

Date Published: 6 July 1998
PDF: 6 pages
Proc. SPIE 3385, Photonic Quantum Computing II, (6 July 1998); doi: 10.1117/12.312636
Show Author Affiliations
Victor I. Varshavsky, Univ. of Aizu (Japan)
Masaaki Kosugi, Univ. of Aizu (Japan)

Published in SPIE Proceedings Vol. 3385:
Photonic Quantum Computing II
Steven P. Hotaling; Andrew R. Pirich, Editor(s)

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