English

Quantum query complexity of minor-closed graph properties

Quantum Physics 2011-05-20 v2 Computational Complexity Data Structures and Algorithms

Abstract

We study the quantum query complexity of minor-closed graph properties, which include such problems as determining whether an nn-vertex graph is planar, is a forest, or does not contain a path of a given length. We show that most minor-closed properties---those that cannot be characterized by a finite set of forbidden subgraphs---have quantum query complexity \Theta(n^{3/2}). To establish this, we prove an adversary lower bound using a detailed analysis of the structure of minor-closed properties with respect to forbidden topological minors and forbidden subgraphs. On the other hand, we show that minor-closed properties (and more generally, sparse graph properties) that can be characterized by finitely many forbidden subgraphs can be solved strictly faster, in o(n^{3/2}) queries. Our algorithms are a novel application of the quantum walk search framework and give improved upper bounds for several subgraph-finding problems.

Keywords

Cite

@article{arxiv.1011.1443,
  title  = {Quantum query complexity of minor-closed graph properties},
  author = {Andrew M. Childs and Robin Kothari},
  journal= {arXiv preprint arXiv:1011.1443},
  year   = {2011}
}

Comments

v1: 25 pages, 2 figures. v2: 26 pages

R2 v1 2026-06-21T16:39:40.999Z