Many quantum algorithms critically rely on quantum walk search, or the use of quantum walks to speed up search problems on graphs. However, the main results on quantum walk search are scattered over different, incomparable frameworks, such as the hitting time framework, the MNRS framework, and the electric network framework. As a consequence, a number of pieces are currently missing. For example, recent work by Ambainis et al. (STOC'20) shows how quantum walks starting from the stationary distribution can always find elements quadratically faster. In contrast, the electric network framework allows quantum walks to start from an arbitrary initial state, but it only detects marked elements. We present a new quantum walk search framework that ...
We provide a new spatial search algorithm by continuous-time quantum walk which can find a marked no...
We carry out a numerical study of the quantum walk search algorithm of Shenvi, Kempe and Whaley Shen...
We propose a new framework for turning quantum search algorithms that decide into quantum algorithms...
The main results on quantum walk search are scattered over different, incomparable frameworks, most ...
Many quantum algorithms critically rely on quantum walk search, or the use of quantum walks to spee...
This book addresses an interesting area of quantum computation called quantum walks, which play an i...
We give a quantum algorithm for finding a marked element on the grid when there are multiple marked ...
We solve an open problem by constructing quantum walks that not only detect but also find marked ver...
We propose a new method for designing quantum search algorithms for finding a ``marked'' element in ...
There has been a very large body of research on searching a marked vertex on a graph based on quantu...
While the quantum query complexity of k-distinctness is known to be O(n3/4-1/4(2k-1)) for any consta...
Recently a number of discrete quantum walk based algorithms have been produced [1–6]. These are clos...
A quantum walk algorithm can detect the presence of a marked vertex on a graph quadratically faster ...
Continuous-time quantum walks provide a natural framework to tackle the fundamental problem of findi...
We introduce a new tool for quantum algorithms called quantum fast-forwarding (QFF). The tool uses q...
We provide a new spatial search algorithm by continuous-time quantum walk which can find a marked no...
We carry out a numerical study of the quantum walk search algorithm of Shenvi, Kempe and Whaley Shen...
We propose a new framework for turning quantum search algorithms that decide into quantum algorithms...
The main results on quantum walk search are scattered over different, incomparable frameworks, most ...
Many quantum algorithms critically rely on quantum walk search, or the use of quantum walks to spee...
This book addresses an interesting area of quantum computation called quantum walks, which play an i...
We give a quantum algorithm for finding a marked element on the grid when there are multiple marked ...
We solve an open problem by constructing quantum walks that not only detect but also find marked ver...
We propose a new method for designing quantum search algorithms for finding a ``marked'' element in ...
There has been a very large body of research on searching a marked vertex on a graph based on quantu...
While the quantum query complexity of k-distinctness is known to be O(n3/4-1/4(2k-1)) for any consta...
Recently a number of discrete quantum walk based algorithms have been produced [1–6]. These are clos...
A quantum walk algorithm can detect the presence of a marked vertex on a graph quadratically faster ...
Continuous-time quantum walks provide a natural framework to tackle the fundamental problem of findi...
We introduce a new tool for quantum algorithms called quantum fast-forwarding (QFF). The tool uses q...
We provide a new spatial search algorithm by continuous-time quantum walk which can find a marked no...
We carry out a numerical study of the quantum walk search algorithm of Shenvi, Kempe and Whaley Shen...
We propose a new framework for turning quantum search algorithms that decide into quantum algorithms...