Encoding of linear kinetic plasma problems in quantum circuits via data compression
Abstract
We propose an algorithm for encoding of linear kinetic plasma problems in quantum circuits. The focus is made on modeling electrostatic linear waves in one-dimensional Maxwellian electron plasma. The waves are described by the linearized Vlasov-Amp\`ere system with a spatially localized external current that drives plasma oscillations. This system is formulated as a boundary-value problem and cast in the form of a linear vector equation to be solved by using the quantum signal processing algorithm. The latter requires encoding of the matrix in a quantum circuit as a subblock of a unitary matrix. We propose how to encode in a circuit in a compressed form and discuss how the resulting circuit scales with the problem size and the desired precision.
Cite
@article{arxiv.2403.11989,
title = {Encoding of linear kinetic plasma problems in quantum circuits via data compression},
author = {Ivan Novikau and Ilya Y. Dodin and Edward A. Startsev},
journal= {arXiv preprint arXiv:2403.11989},
year = {2024}
}