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Autori principali: Ford, Ian, Amour, Adrien, Keller, Matthias
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2601.16875
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author Ford, Ian
Amour, Adrien
Keller, Matthias
author_facet Ford, Ian
Amour, Adrien
Keller, Matthias
contents Control over the internal states of trapped ions makes them the ideal system to generate single and two-photon states. Coupling a single ion to an optical cavity enables efficient emission of single photons into a single spatial mode and grants control over their temporal shape, phase and frequency. Using the long coherence time of the ion's internal states and employing a scheme to protect the coherence of the ion-cavity interaction, we demonstrate the generation of a two-photon entangled state with full control over the phase. Initially, ion-photon entanglement is generated. A second photon is subsequently generated, mapping the ion's state onto the second photon. By adjusting the drive field the phase of the entangled state can be fully controlled. We implement this scheme in the most resource efficient way by utilizing a single $^{40}$Ca$^+$ ion coupled to an optical cavity and demonstrate the generation of a two-photon entangled stated with full phase control with a fidelity of up to 82\%.
format Preprint
id arxiv_https___arxiv_org_abs_2601_16875
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Generation of fully phase controlled two-photon entangled states
Ford, Ian
Amour, Adrien
Keller, Matthias
Quantum Physics
Control over the internal states of trapped ions makes them the ideal system to generate single and two-photon states. Coupling a single ion to an optical cavity enables efficient emission of single photons into a single spatial mode and grants control over their temporal shape, phase and frequency. Using the long coherence time of the ion's internal states and employing a scheme to protect the coherence of the ion-cavity interaction, we demonstrate the generation of a two-photon entangled state with full control over the phase. Initially, ion-photon entanglement is generated. A second photon is subsequently generated, mapping the ion's state onto the second photon. By adjusting the drive field the phase of the entangled state can be fully controlled. We implement this scheme in the most resource efficient way by utilizing a single $^{40}$Ca$^+$ ion coupled to an optical cavity and demonstrate the generation of a two-photon entangled stated with full phase control with a fidelity of up to 82\%.
title Generation of fully phase controlled two-photon entangled states
topic Quantum Physics
url https://arxiv.org/abs/2601.16875