Saved in:
Bibliographic Details
Main Authors: Qichen, Qin, Zhao, Qi, Lee, M. D. K., Zhang, Zhao, Jayjong, N., Arnold, K. J., Barrett, M. D.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.02026
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866908754425937920
author Qichen, Qin
Zhao, Qi
Lee, M. D. K.
Zhang, Zhao
Jayjong, N.
Arnold, K. J.
Barrett, M. D.
author_facet Qichen, Qin
Zhao, Qi
Lee, M. D. K.
Zhang, Zhao
Jayjong, N.
Arnold, K. J.
Barrett, M. D.
contents We explore degenerate Raman sideband cooling in which neighboring Zeeman states of a fixed hyperfine level are coupled via a two-photon Raman transition. The degenerate coupling between $|F,m_F\rangle\rightarrow |F,m_F-1\rangle$ facilitates the removal of multiple motional quanta in a single cycle. This method greatly reduces the number of cooling cycles required to reach the ground state compared to traditional sideband cooling. We show that near ground state cooling can be achieved with a pulse number as low as $\bar{n}$ where $\bar{n}$ is the average phonon number in the initial thermal state. We demonstrate proof-of-concept in $^{176}\mathrm{Lu}^+$ by coupling neighboring Zeeman levels on the motional sideband for the $F=7$ hyperfine level in $^3D_1$. Starting from a thermal distribution with an average phonon number of 6, we demonstrate near ground-state cooling with $\sim10$ pulses. A theoretical description is given that applies to any $F$ level and demonstrates how effective this approach can be.
format Preprint
id arxiv_https___arxiv_org_abs_2508_02026
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Zeeman Degenerate Sideband Cooling in $^{176}$Lu$^+$
Qichen, Qin
Zhao, Qi
Lee, M. D. K.
Zhang, Zhao
Jayjong, N.
Arnold, K. J.
Barrett, M. D.
Quantum Physics
We explore degenerate Raman sideband cooling in which neighboring Zeeman states of a fixed hyperfine level are coupled via a two-photon Raman transition. The degenerate coupling between $|F,m_F\rangle\rightarrow |F,m_F-1\rangle$ facilitates the removal of multiple motional quanta in a single cycle. This method greatly reduces the number of cooling cycles required to reach the ground state compared to traditional sideband cooling. We show that near ground state cooling can be achieved with a pulse number as low as $\bar{n}$ where $\bar{n}$ is the average phonon number in the initial thermal state. We demonstrate proof-of-concept in $^{176}\mathrm{Lu}^+$ by coupling neighboring Zeeman levels on the motional sideband for the $F=7$ hyperfine level in $^3D_1$. Starting from a thermal distribution with an average phonon number of 6, we demonstrate near ground-state cooling with $\sim10$ pulses. A theoretical description is given that applies to any $F$ level and demonstrates how effective this approach can be.
title Zeeman Degenerate Sideband Cooling in $^{176}$Lu$^+$
topic Quantum Physics
url https://arxiv.org/abs/2508.02026