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Hauptverfasser: Wing-Bocanegra, Allan, Quintero-Narvaez, Carlos E., Venegas-Andraca, Salvador E.
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2405.16322
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author Wing-Bocanegra, Allan
Quintero-Narvaez, Carlos E.
Venegas-Andraca, Salvador E.
author_facet Wing-Bocanegra, Allan
Quintero-Narvaez, Carlos E.
Venegas-Andraca, Salvador E.
contents We propose a modified version of the quantum walk-based search algorithm created by Shenvi, Kempe and Whaley, also known as the SKW algorithm. In our version of the algorithm, we modified the evolution operator of the system so that it is composed by the product of the shift operator associated to the $2^n$-complete graph with self-loops and a perturbed coin operator based on the Hadamard operator that works as an oracle for the search. The modified evolution operator leads the opposite behavior as in the original algorithm, that is, the probability to measure the target state is reduced. We call this new behavior the $\textit{search complement}$. Taking a multigraph and matrix approach, we were able to explain that the new algorithm decreases the probability of the target state given that there are less paths that lead towards the node that is associated to the target state in a Unitary Coined Discrete-Time Quantum Walk. The search complement algorithm was executed experimentally on IBM quantum processor $\textit{ibmq_manila}$ obtaining statistical distances $\ell_1\leq 0.0895$ when decreasing the probability of one state out of four.
format Preprint
id arxiv_https___arxiv_org_abs_2405_16322
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Circuit Implementation and Analysis of a Quantum-Walk Based Search Complement Algorithm
Wing-Bocanegra, Allan
Quintero-Narvaez, Carlos E.
Venegas-Andraca, Salvador E.
Quantum Physics
We propose a modified version of the quantum walk-based search algorithm created by Shenvi, Kempe and Whaley, also known as the SKW algorithm. In our version of the algorithm, we modified the evolution operator of the system so that it is composed by the product of the shift operator associated to the $2^n$-complete graph with self-loops and a perturbed coin operator based on the Hadamard operator that works as an oracle for the search. The modified evolution operator leads the opposite behavior as in the original algorithm, that is, the probability to measure the target state is reduced. We call this new behavior the $\textit{search complement}$. Taking a multigraph and matrix approach, we were able to explain that the new algorithm decreases the probability of the target state given that there are less paths that lead towards the node that is associated to the target state in a Unitary Coined Discrete-Time Quantum Walk. The search complement algorithm was executed experimentally on IBM quantum processor $\textit{ibmq_manila}$ obtaining statistical distances $\ell_1\leq 0.0895$ when decreasing the probability of one state out of four.
title Circuit Implementation and Analysis of a Quantum-Walk Based Search Complement Algorithm
topic Quantum Physics
url https://arxiv.org/abs/2405.16322