English

Speeding up thermalization and quantum state preparation through engineered quantum collisions

Quantum Physics 2025-06-26 v1

Abstract

We realize fast thermalization and state preparation of a single mode cavity field using a collision model-like approach, where a sequence of qubits or three level system ancillae, sequentially interacting with the field, is engineered with a genetic algorithm approach. In contrast to optimal control techniques, there is no time-dependent system Hamiltonian control deployed and, in contrast to reservoir engineering, the engineered full system-environment dynamics is optimized, and the target is not a steady state. We prove a significant speed up in thermalization - for which we show that diagonal qubit ancilla states are sufficient - and in the preparation of coherent states. We demonstrate the preparation of squeezed states and of highly non-Gaussian states. Our work offers a new alternative for fast preparation of cavity states that lays in between optimal Hamiltonian control and reservoir engineering, and gives further insights on the resources needed to realize or speed up the preparation of such states.

Keywords

Cite

@article{arxiv.2506.20625,
  title  = {Speeding up thermalization and quantum state preparation through engineered quantum collisions},
  author = {Sofia Sgroi and Salvatore Lorenzo and Luca Innocenti and Paolo A. Erdman and G. Massimo Palma and Mauro Paternostro},
  journal= {arXiv preprint arXiv:2506.20625},
  year   = {2025}
}

Comments

12 pages, 11 figures

R2 v1 2026-07-01T03:33:22.906Z