Trade-off between complexity and energy in quantum phase estimation
Abstract
Quantifying the energetic cost of implementing quantum operations is essential for assessing the efficiency and scalability of quantum sensing and information-processing technologies. Here, we introduce a framework for analysing the interplay between complexity and energy cost of quantum processes. In particular, we apply our framework to a sequential quantum phase estimation protocol, where a phase of physical significance is encoded in a quantum channel. The channel is applied to a probe state repeatedly until the probe is measured and the outcome leads to an estimate on the phase. We establish a trade-off relation between the total energy cost of the protocol and the number of times the channel is applied (complexity), while reaching a desired estimation precision. A sweet spot is located where the two quantities are co-optimised. The principles of our analysis can be adapted to benchmark the energetic requirements in other quantum protocols and devices.
Cite
@article{arxiv.2511.05458,
title = {Trade-off between complexity and energy in quantum phase estimation},
author = {Yukuan Tao and Madalin Guta and Gerardo Adesso},
journal= {arXiv preprint arXiv:2511.05458},
year = {2026}
}
Comments
22 pages, 10 figures