中文摘要：

完全图KN上某个顶点连接到图G将破坏其对称性.为加速定位这类结构异常,基于散射量子行走模型设计搜索算法,首先给出了算法酉算子的定义,在此基础上利用完全图的对称性,将算法的搜索空间限定为一个低维的坍缩图空间.以G为一个顶点的情况为例,利用硬币量子行走模型上的研究结论简化了坍缩图空间中酉算子的计算,并借助矩阵扰动理论分析算法演化过程.针对星图SN上结构异常的研究表明,以星图中心节点为界将整个图分为左右两个部分,当且仅当两部分在N→∞时具有相同的特征值,搜索算法可以获得量子加速.本文说明星图上的分析方法和结论可以推广至完全图的坍缩图上.基于此,本文证明无论完全图连接的图G结构如何,搜索算法均可在O（√N）时间内定位到目标顶点,成功概率为1-O（1/√N）,即量子行走搜索该类异常与经典搜索相比有二次加速.

英文摘要：

Quantum walks have been proven to be a useful framework in designing new quantum algorithms, of which the search algorithm is the most notable. Besides a general search for a special vertex, recent researches have shown that quantum walks can also be used to find structural anomalies. Suppose a vertex of complete graph KNis attached to a second graph G, then the kind of structure anomaly will break the symmetry of the complete graph. The search algorithm based on scattering quantum walk model is presented to speed up locating this kind of structure anomaly. The concepts of scattering quantum walk model and collapsed graphs are presented. The definition of the evolutionary operator,which is different from that of a general search, is given. Based on the specific definition of evolutionary operator and the obvious symmetry of complete graph, it is shown that the search space is confined to a low-dimensional collapsed space, and the initial state is chosen to lie in this subspace. To illustrate the evolutionary process of the search algorithm,an example is given in the case that G is a single vertex. Taking advantage of our earlier study on the evolutionary operator of coined quantum walks with Grover coin, calculations of the unitary operator in the collapsed space are greatly simplified. To quantify the evolutionary process of the algorithm, we use the matrix perturbation theory involving a perturbative approach to find the eigenvalues and eigenstates. It is the degenerate zeroth-order eigenvalue λ0= 1 that leads to the interesting parts of the Hilbert space. Most of the recent researches of searching the structure anomalies focus on star graph SNwith an unspecified graph G attached to one of its external vertices, where the overall graph is divided into two parts by the central vertex. It is shown that quantum speedup will occur if and only if the eigenvalues associated with these two parts in the N → ∞ limit are the same. In this paper, we find that the collapsed graph of complete graphs can also be divided