In this paper, we study Grover's search algorithm focusing on continuous-time quantum walk on graphs. We propose an alternative optimization approach to Grover's algorithm on graphs that can be summarized as follows: instead of finding specific graph topologies convenient for the related quantum walk, we fix the graph topology and vary the underlying graph Laplacians. As a result, we search for the most appropriate analytical structure on graphs endowed with fixed topologies yielding better search outcomes. We discuss strategies to investigate the optimality of Grover's algorithm and provide an example with an easy tunable graph Laplacian to investigate our ideas
We analyse the eigenvalue and eigenvector structure of the flip-flop quantum walk on regular graphs,...
In this paper we isolate the combinatorial property responsible (at least in part) for the computati...
A quantum walk algorithm can detect the presence of a marked vertex on a graph quadratically faster ...
Grover's quantum search algorithm provides a way to speed up combinatorial search, but is not direct...
This book addresses an interesting area of quantum computation called quantum walks, which play an i...
Continuous-time quantum walks provide a natural framework to tackle the fundamental problem of findi...
Abstract Graph search represents a cornerstone in computer science and is em-ployed when the best al...
We provide a new spatial search algorithm by continuous-time quantum walk which can find a marked no...
The quantum walk dynamics obey the laws of quantum mechanics with an extra locality constraint, whic...
In this thesis we present new quantum algorithms for graph and algebra problems. Our quantum algorit...
Many quantum algorithms critically rely on quantum walk search, or the use of quantum walks to speed...
This thesis’ aim is to explore improvements to, and applications of, a fundamental quantum algorithm...
Kronecker graphs, obtained by repeatedly performing the Kronecker product of the adjacency matrix of...
© 2017 Chinese Physical Society and IOP Publishing Ltd. Janmark, Meyer, and Wong showed that continu...
We solve an open problem by constructing quantum walks that not only detect but also find marked ver...
We analyse the eigenvalue and eigenvector structure of the flip-flop quantum walk on regular graphs,...
In this paper we isolate the combinatorial property responsible (at least in part) for the computati...
A quantum walk algorithm can detect the presence of a marked vertex on a graph quadratically faster ...
Grover's quantum search algorithm provides a way to speed up combinatorial search, but is not direct...
This book addresses an interesting area of quantum computation called quantum walks, which play an i...
Continuous-time quantum walks provide a natural framework to tackle the fundamental problem of findi...
Abstract Graph search represents a cornerstone in computer science and is em-ployed when the best al...
We provide a new spatial search algorithm by continuous-time quantum walk which can find a marked no...
The quantum walk dynamics obey the laws of quantum mechanics with an extra locality constraint, whic...
In this thesis we present new quantum algorithms for graph and algebra problems. Our quantum algorit...
Many quantum algorithms critically rely on quantum walk search, or the use of quantum walks to speed...
This thesis’ aim is to explore improvements to, and applications of, a fundamental quantum algorithm...
Kronecker graphs, obtained by repeatedly performing the Kronecker product of the adjacency matrix of...
© 2017 Chinese Physical Society and IOP Publishing Ltd. Janmark, Meyer, and Wong showed that continu...
We solve an open problem by constructing quantum walks that not only detect but also find marked ver...
We analyse the eigenvalue and eigenvector structure of the flip-flop quantum walk on regular graphs,...
In this paper we isolate the combinatorial property responsible (at least in part) for the computati...
A quantum walk algorithm can detect the presence of a marked vertex on a graph quadratically faster ...