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Main Authors: Egli, Florian, Shanks, Chris, Bounds, James, Moreno, Jorge, Thariq, Muhammad, Yilmaz, Erdem, Hänsch, Theodor W., Udem, Thomas, Ozawa, Akira
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2605.07942
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author Egli, Florian
Shanks, Chris
Bounds, James
Moreno, Jorge
Thariq, Muhammad
Yilmaz, Erdem
Hänsch, Theodor W.
Udem, Thomas
Ozawa, Akira
author_facet Egli, Florian
Shanks, Chris
Bounds, James
Moreno, Jorge
Thariq, Muhammad
Yilmaz, Erdem
Hänsch, Theodor W.
Udem, Thomas
Ozawa, Akira
contents For a single trapped ion, the excitation spectrum of a narrow optical transition consists of a Doppler- and recoil-free carrier accompanied by motional sidebands, which are equally spaced by the trap secular frequency and lie under a Doppler-broadened envelope that is shifted by the photon recoil. Outside the Lamb-Dicke regime, the large photon recoil distributes the line strength across many sidebands and suppresses excitation of the carrier. With multiple ions, the motional spectrum becomes dense, and the carrier is further weakened. Here, we predict a counterintuitive revival effect: increasing the number of ions in a linear chain can restore strong carrier excitation even under trapping conditions far from the single-ion Lamb-Dicke regime. Using a quantum-mechanical model of the excitation dynamics in linear ion chains, we find that sufficiently long chains concentrate the spectrum into the carrier. This effect enables efficient excitation of light ions at short wavelengths. It may also benefit multi-ion optical clocks and mixed-species quantum-logic spectroscopy.
format Preprint
id arxiv_https___arxiv_org_abs_2605_07942
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Carrier Revival in Long Trapped-Ion Chains
Egli, Florian
Shanks, Chris
Bounds, James
Moreno, Jorge
Thariq, Muhammad
Yilmaz, Erdem
Hänsch, Theodor W.
Udem, Thomas
Ozawa, Akira
Atomic Physics
Quantum Physics
For a single trapped ion, the excitation spectrum of a narrow optical transition consists of a Doppler- and recoil-free carrier accompanied by motional sidebands, which are equally spaced by the trap secular frequency and lie under a Doppler-broadened envelope that is shifted by the photon recoil. Outside the Lamb-Dicke regime, the large photon recoil distributes the line strength across many sidebands and suppresses excitation of the carrier. With multiple ions, the motional spectrum becomes dense, and the carrier is further weakened. Here, we predict a counterintuitive revival effect: increasing the number of ions in a linear chain can restore strong carrier excitation even under trapping conditions far from the single-ion Lamb-Dicke regime. Using a quantum-mechanical model of the excitation dynamics in linear ion chains, we find that sufficiently long chains concentrate the spectrum into the carrier. This effect enables efficient excitation of light ions at short wavelengths. It may also benefit multi-ion optical clocks and mixed-species quantum-logic spectroscopy.
title Carrier Revival in Long Trapped-Ion Chains
topic Atomic Physics
Quantum Physics
url https://arxiv.org/abs/2605.07942