%K Annealing; Ground state; Hamiltonians; Mathematical models; Qubits, Entanglement; Mathematical modeling and simulation; Processor nodes; Quantum annealing; Quantum correlations; Quantum processors; Spin chain models; Unitary operators, Quantum entanglement
%X In this paper, a new model of 3-qubits quantum annealing processor is designed. The spin-chain model is used to simulate the quantum annealing processor. The Hamiltonian which describes the system is introduced and analytically solved using the unitary operator method taking into account, processor in,ground state. The generated entanglement between processor parts is quantified using, concurrence method. The effect of quantum processor parameters on the dynamics of entanglement is investigated. The results show that enough quantum correlation is generated between quantum annealing processor nodes (qubits). However, it has shown that we can control the dynamics of entanglement over the system by controlling the system parameters. c 2019 ACM.
%R 10.1145/3343485.3343491
%D 2019
%L scholars11465
%J ACM International Conference Proceeding Series
%O cited By 2; Conference of 2nd International Conference on Mathematics and Statistics, ICoMS 2019 ; Conference Date: 8 July 2019 Through 10 July 2019; Conference Code:151596
%A S. Owyed
%A A. Abdel-Aty
%A M. Mabrok
%A N. Zakaria
%I Association for Computing Machinery
%T Mathematical modeling and simulation of 3-qubits quantum annealing processor
%P 14-18