English

Cold hybrid electrical-optical ion trap

Atomic Physics 2025-06-04 v2 Quantum Physics

Abstract

Advances in research such as quantum information and quantum chemistry require subtle methods for trapping particles (including ions, neutral atoms, molecules, etc.). Here we propose a hybrid ion trapping method by combining a Paul trap with optical tweezers. The trap combines the advances of the deep-potential feature for the Paul trap and the micromotion-free feature for the optical dipole trap. By modulating the optical-dipole trap synchronously with the radio frequency voltage of the Paul trap, the alternating electrical force in the trap center is fully counteracted, and the micromotion temperature of a cold trapped ion can reach the order of nK while the trap depth is beyond 300K. These features will enable cold collisions between an ion and an atom in the ss-wave regime and stably trap the produced molecular ion in the cold hybrid system. This will provide a unique platform for probing the interactions between the ions and the surrounding neutral particles and enable the investigation of new reaction pathways and reaction products in the cold regime.

Keywords

Cite

@article{arxiv.2306.10366,
  title  = {Cold hybrid electrical-optical ion trap},
  author = {Jin-Ming Cui and Shi-Jia Sun and Xi-Wang Luo and Yun-Feng Huang and Chuan-Feng Li and Guang-Can Guo},
  journal= {arXiv preprint arXiv:2306.10366},
  year   = {2025}
}

Comments

11 pages, 5 figures

R2 v1 2026-06-28T11:07:57.250Z