Local Random Quantum Circuits are Approximate Polynomial-Designs

Author(s)

Horodecki, Michał; Brandão, Fernando G. S. L.; Harrow, Aram W

Abstract

We prove that local random quantum circuits acting on n qubits composed of O(t[superscript 10]n[superscript 2]) many nearest neighbor two-qubit gates form an approximate unitary t-design. Previously it was unknown whether random quantum circuits were a t-design for any t > 3. The proof is based on an interplay of techniques from quantum many-body theory, representation theory, and the theory of Markov chains. In particular we employ a result of Nachtergaele for lower bounding the spectral gap of frustration-free quantum local Hamiltonians; a quasi-orthogonality property of permutation matrices; a result of Oliveira which extends to the unitary group the path-coupling method for bounding the mixing time of random walks; and a result of Bourgain and Gamburd showing that dense subgroups of the special unitary group, composed of elements with algebraic entries, are ∞-copy tensor-product expanders. We also consider pseudo-randomness properties of local random quantum circuits of small depth and prove that circuits of depth O(t[superscript 10]n) constitute a quantum t-copy tensor-product expander. The proof also rests on techniques from quantum many-body theory, in particular on the detectability lemma of Aharonov, Arad, Landau, and Vazirani. We give applications of the results to cryptography, equilibration of closed quantum dynamics, and the generation of topological order. In particular we show the following pseudo-randomness property of generic quantum circuits: Almost every circuit U of size O(n[superscript k]) on n qubits cannot be distinguished from a Haar uniform unitary by circuits of size O(n[superscript (k-9)/11]) that are given oracle access to U.

Date issued

2016-08

URI

http://hdl.handle.net/1721.1/105908

Department

Massachusetts Institute of Technology. Center for Theoretical Physics
Massachusetts Institute of Technology. Department of Physics

Journal

Communications in Mathematical Physics

Publisher

Springer Berlin Heidelberg

Citation

Brandão, Fernando G. S. L., Aram W. Harrow, and Michał Horodecki. “Local Random Quantum Circuits Are Approximate Polynomial-Designs.” Communications in Mathematical Physics 346.2 (2016): 397–434.

Version: Author's final manuscript

ISSN

0010-3616

1432-0916