English

Simulation of single-qubit open quantum systems

Quantum Physics 2017-05-30 v3

Abstract

A quantum algorithm is presented for the simulation of arbitrary Markovian dynamics of a qubit, described by a semigroup of single qubit quantum channels {Tt}\{T_t\} specified by a generator L\mathcal{L}. This algorithm requires only O((L(11)t)3/2/ϵ1/2)\mathcal{O}\big((||\mathcal{L}||_{(1\rightarrow 1)} t)^{3/2}/\epsilon^{1/2} \big) single qubit and CNOT gates and approximates the channel Tt=etLT_t = e^{t\mathcal{L}} up to chosen accuracy ϵ\epsilon. Inspired by developments in Hamiltonian simulation, a decomposition and recombination technique is utilised which allows for the exploitation of recently developed methods for the approximation of arbitrary single-qubit channels. In particular, as a result of these methods the algorithm requires only a single ancilla qubit, the minimal possible dilation for a non-unitary single-qubit quantum channel.

Keywords

Cite

@article{arxiv.1405.6049,
  title  = {Simulation of single-qubit open quantum systems},
  author = {R. Sweke and I. Sinayskiy and F. Petruccione},
  journal= {arXiv preprint arXiv:1405.6049},
  year   = {2017}
}

Comments

Revised version. Restricted recombination method to first order Suzuki-Lie-Trotter integrators, and added discussion concerning issues with application of higher order integrators within the open quantum systems setting

R2 v1 2026-06-22T04:21:55.068Z