The mathematics of a quantum Hamiltonian computing half adder Boolean logic gate

G Dridi,R Julien,C Joachim,M Hliwa

doi:10.1088/0957-4484/26/34/344003

The mathematics of a quantum Hamiltonian computing half adder Boolean logic gate

G Dridi, R Julien + Show 2 more

https://doi.org/10.1088/0957-4484/26/34/344003

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Journal: Nanotechnology	Publication Date: Aug 3, 2015
Citations: 12	License type: iop-standard

Affiliation: Centre d’Élaboration de Matériaux et d’Études Structurales, French National Centre for Scientific Research, National Higher French Institute of Aeronautics and Space, National Institute for Materials Science, University of Hassan II Casablanca

#Quantum Hamiltonian Computing #Boolean Logic Gates + Show 8 more

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Abstract

The mathematics behind the quantum Hamiltonian computing (QHC) approach of designing Boolean logic gates with a quantum system are given. Using the quantum eigenvalue repulsion effect, the QHC AND, NAND, OR, NOR, XOR, and NXOR Hamiltonian Boolean matrices are constructed. This is applied to the construction of a QHC half adder Hamiltonian matrix requiring only six quantum states to fullfil a half Boolean logical truth table. The QHC design rules open a nano-architectronic way of constructing Boolean logic gates inside a single molecule or atom by atom at the surface of a passivated semi-conductor.

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