Perturbative Gadgets at Arbitrary Orders
Abstract
Adiabatic quantum algorithms are often most easily formulated using many-body interactions. However, experimentally available interactions are generally two-body. In 2004, Kempe, Kitaev, and Regev introduced perturbative gadgets, by which arbitrary three-body effective interactions can be obtained using Hamiltonians consisting only of two-body interactions. These three-body effective interactions arise from the third order in perturbation theory. Since their introduction, perturbative gadgets have become a standard tool in the theory of quantum computation. Here we construct generalized gadgets so that one can directly obtain arbitrary k-body effective interactions from two-body Hamiltonians. These effective interactions arise from the kth order in perturbation theory.
Cite
@article{arxiv.0802.1874,
title = {Perturbative Gadgets at Arbitrary Orders},
author = {Stephen P. Jordan and Edward Farhi},
journal= {arXiv preprint arXiv:0802.1874},
year = {2012}
}
Comments
Corrected an error: U dagger vs. U inverse