English

Quantum Discrepancy: A Non-Commutative Version of Combinatorial Discrepancy

Probability 2020-10-16 v3 Combinatorics

Abstract

In this paper, we introduce a notion of quantum discrepancy, a non-commutative version of combinatorial discrepancy which is defined for projection systems, i.e. finite sets of orthogonal projections, as non-commutative counterparts of set systems. We show that besides its natural algebraic formulation, quantum discrepancy, when restricted to set systems, has a probabilistic interpretation in terms of determinantal processes. Determinantal processes are a family of point processes with a rich algebraic structure. A common feature of this family is the local repulsive behavior of points. Alishahi and Zamani (2015) exploit this repelling property to construct low-discrepancy point configurations on the sphere. We give an upper bound for quantum discrepancy in terms of NN, the dimension of the space, and MM, the size of the projection system, which is tight in a wide range of parameters NN and MM. Then we investigate the relation of these two kinds of discrepancies, i.e. combinatorial and quantum, when restricted to set systems, and bound them in terms of each other.

Keywords

Cite

@article{arxiv.1711.08809,
  title  = {Quantum Discrepancy: A Non-Commutative Version of Combinatorial Discrepancy},
  author = {Kasra Alishahi and Mohaddeseh Rajaee and Ali Rajaei},
  journal= {arXiv preprint arXiv:1711.08809},
  year   = {2020}
}
R2 v1 2026-06-22T22:55:26.062Z