An Apparatus for Controlling the Sr Clock Qubit

Marijn L. Venderbosch; Edgar J.D. Vredenbregt; Gosia Kucharska; Jesus del Pozo Mellado; Max Festenstein; Rianne S.  Lous; Rik A.H. van Herk; Servaas J.J.M.F Kokkelmans; Zhichao Guo

An Apparatus for Controlling the Sr Clock Qubit

Marijn L. Venderbosch (corresponding author), Edgar J.D. Vredenbregt, Gosia Kucharska, Jesus del Pozo Mellado, Max Festenstein, Rianne S. Lous, Rik A.H. van Herk, Servaas J.J.M.F Kokkelmans, Zhichao Guo

Research output: Contribution to conference › Poster

Abstract

Arrays of optical tweezers loaded with neutral atoms have rapidly gained traction as a versatile and scalable architecture for quantum information processing. At Eindhoven University of Technology, we are developing a tweezer apparatus that allows control over single- and multi-qubit gates using the Sr clock qubit.

On the poster, we will present our recent experimental results of preparing single Sr atoms in our array of 5 x 5 optical tweezers. Spectroscopy measurements reveal an average tweezer depth of 0.51(2) mK and a standard deviation across of the array in the depth of 2.8%. Also shown are our first steps towards our two goals, which are site-resolved single-qubit operations using the ultranarrow 1S₀–3P₀ clock transition and implementing multi-qubit entangling gates via coherent excitation to Rydberg states using an ultraviolet laser.

Looking ahead, we aim to make this platform remotely accessible through the open platform Quantum Inspire, opening the door for broader experimentation and algorithm development within the community.

Original language	English
Publication status	Published - 2025
Event	European Conference on Atoms Molecules and Photons - Innsbruck, Austria Duration: 30 Jun 2025 → 4 Jul 2025 https://ecamp15.org/

Conference

Conference	European Conference on Atoms Molecules and Photons
Abbreviated title	ECAMP15
Country/Territory	Austria
City	Innsbruck
Period	30/06/25 → 4/07/25
Internet address	https://ecamp15.org/

KAT-1: Rydberg Atom Quantum Computing and Simulation
Kokkelmans, S. J. J. M. F. (Project Manager), van den Heuvel, H. (Project member), Janse van Rensburg, D. (Project member), Postema, J. (Project member), Guo, Z. (Project member), van de Kraats, J. (Project member), de Keijzer, R. J. P. T. (Project member), van Herk, R. A. H. (Project member), Venderbosch, M. L. (Project member), del Pozo Mellado, J. (Project member), Parcelas Resina dos Santos, R. (Project member), van der Werf, Y. (Project member), Festenstein, M. (Project member), Akaturk, E. (Project member), van Dongen, E. M. W. M. (Project member), Lous, R. (Project member), Bouyer, P. (Project member), Vredenbregt, E. J. D. (Project member), Venderbosch, R. C. (Project communication officer) & Mohan, M. (Project communication officer)
1/07/20 → 31/12/28
Project: Third tier

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title = "An Apparatus for Controlling the Sr Clock Qubit",

abstract = "Arrays of optical tweezers loaded with neutral atoms have rapidly gained traction as a versatile and scalable architecture for quantum information processing. At Eindhoven University of Technology, we are developing a tweezer apparatus that allows control over single- and multi-qubit gates using the Sr clock qubit. On the poster, we will present our recent experimental results of preparing single Sr atoms in our array of 5 x 5 optical tweezers. Spectroscopy measurements reveal an average tweezer depth of 0.51(2) mK and a standard deviation across of the array in the depth of 2.8\%. Also shown are our first steps towards our two goals, which are site-resolved single-qubit operations using the ultranarrow 1S₀–3P₀ clock transition and implementing multi-qubit entangling gates via coherent excitation to Rydberg states using an ultraviolet laser. Looking ahead, we aim to make this platform remotely accessible through the open platform Quantum Inspire, opening the door for broader experimentation and algorithm development within the community.",

author = "Venderbosch, \{Marijn L.\} and Vredenbregt, \{Edgar J.D.\} and Gosia Kucharska and \{del Pozo Mellado\}, Jesus and Max Festenstein and Lous, \{Rianne S.\} and \{van Herk\}, \{Rik A.H.\} and Kokkelmans, \{Servaas J.J.M.F\} and Zhichao Guo",

year = "2025",

language = "English",

note = "European Conference on Atoms Molecules and Photons, ECAMP15 ; Conference date: 30-06-2025 Through 04-07-2025",

url = "https://ecamp15.org/",

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TY - CONF

T1 - An Apparatus for Controlling the Sr Clock Qubit

AU - Venderbosch, Marijn L.

AU - Vredenbregt, Edgar J.D.

AU - Kucharska, Gosia

AU - del Pozo Mellado, Jesus

AU - Festenstein, Max

AU - Lous, Rianne S.

AU - van Herk, Rik A.H.

AU - Kokkelmans, Servaas J.J.M.F

AU - Guo, Zhichao

PY - 2025

Y1 - 2025

N2 - Arrays of optical tweezers loaded with neutral atoms have rapidly gained traction as a versatile and scalable architecture for quantum information processing. At Eindhoven University of Technology, we are developing a tweezer apparatus that allows control over single- and multi-qubit gates using the Sr clock qubit. On the poster, we will present our recent experimental results of preparing single Sr atoms in our array of 5 x 5 optical tweezers. Spectroscopy measurements reveal an average tweezer depth of 0.51(2) mK and a standard deviation across of the array in the depth of 2.8%. Also shown are our first steps towards our two goals, which are site-resolved single-qubit operations using the ultranarrow 1S₀–3P₀ clock transition and implementing multi-qubit entangling gates via coherent excitation to Rydberg states using an ultraviolet laser. Looking ahead, we aim to make this platform remotely accessible through the open platform Quantum Inspire, opening the door for broader experimentation and algorithm development within the community.

AB - Arrays of optical tweezers loaded with neutral atoms have rapidly gained traction as a versatile and scalable architecture for quantum information processing. At Eindhoven University of Technology, we are developing a tweezer apparatus that allows control over single- and multi-qubit gates using the Sr clock qubit. On the poster, we will present our recent experimental results of preparing single Sr atoms in our array of 5 x 5 optical tweezers. Spectroscopy measurements reveal an average tweezer depth of 0.51(2) mK and a standard deviation across of the array in the depth of 2.8%. Also shown are our first steps towards our two goals, which are site-resolved single-qubit operations using the ultranarrow 1S₀–3P₀ clock transition and implementing multi-qubit entangling gates via coherent excitation to Rydberg states using an ultraviolet laser. Looking ahead, we aim to make this platform remotely accessible through the open platform Quantum Inspire, opening the door for broader experimentation and algorithm development within the community.

M3 - Poster

T2 - European Conference on Atoms Molecules and Photons

Y2 - 30 June 2025 through 4 July 2025

ER -

An Apparatus for Controlling the Sr Clock Qubit

Abstract

Conference

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Projects

KAT-1: Rydberg Atom Quantum Computing and Simulation

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