Rubidium Atoms in Tweezer Arrays for Hybrid Quantum Computing

Deon Janse van Rensburg; Zhichao Guo; Rik A.H. van Herk; Marijn L. Venderbosch; Ivo Knottnerus; Alexander Urech; Shao Cheng Lin; Robert Spreeuw; Florian Schreck; Rianne S.  Lous; Edgar J.D. Vredenbregt; Servaas J.J.M.F Kokkelmans

Rubidium Atoms in Tweezer Arrays for Hybrid Quantum Computing

Deon Janse van Rensburg
, Zhichao Guo
, Rik A.H. van Herk
, Marijn L. Venderbosch
, Ivo Knottnerus
, Alexander Urech
, Shao Cheng Lin
, Robert Spreeuw
, Florian Schreck
, Rianne S. Lous
, Edgar J.D. Vredenbregt
, Servaas J.J.M.F Kokkelmans

Onderzoeksoutput: Bijdrage aan congres › Poster

Samenvatting

Our project has the goal of building a quantum co-processor consisting of neutral atoms in tweezer arrays. This quantum co-processor will form part of an online-accessible hybrid quantum computer tailored for
solving quantum chemistry problems.
In this collaborative project between a team at the Eindhoven University of Technology (TU/e) and a team at the University of Amsterdam (UvA) there are three setups: a demonstrator system using rubidium
atoms at TU/e, the existing 1st generation strontium-based system at UvA and the 2nd generation strontium-based system at TU/e which is being constructed.
In this poster we present the status of our rubidium-based system, which is used to test various components and techniques which will be used in the 2
nd generation strontium-based system. In particular we
present our progress towards trapping single 85Rb atoms in arrays of optical tweezers, characterization measurements of the trapping potential experienced by the trapped atoms and our plans to implement
single qubit rotations on the hyperfine ground states of these atoms

Originele taal-2	Engels
Status	Gepubliceerd - 4 apr. 2023
Evenement	NWO Physics 2023 - Veldhoven, Nederland Duur: 4 apr. 2023 → 5 apr. 2023

Congres

Congres	NWO Physics 2023
Land/Regio	Nederland
Stad	Veldhoven
Periode	4/04/23 → 5/04/23

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

Bestand

Citeer dit

@conference{9fe16281fdcb4b3bbd16e45f3fc46205,

title = "Rubidium Atoms in Tweezer Arrays for Hybrid Quantum Computing",

abstract = "Our project has the goal of building a quantum co-processor consisting of neutral atoms in tweezer arrays. This quantum co-processor will form part of an online-accessible hybrid quantum computer tailored for solving quantum chemistry problems. In this collaborative project between a team at the Eindhoven University of Technology (TU/e) and a team at the University of Amsterdam (UvA) there are three setups: a demonstrator system using rubidium atoms at TU/e, the existing 1st generation strontium-based system at UvA and the 2nd generation strontium-based system at TU/e which is being constructed. In this poster we present the status of our rubidium-based system, which is used to test various components and techniques which will be used in the 2 nd generation strontium-based system. In particular we present our progress towards trapping single 85Rb atoms in arrays of optical tweezers, characterization measurements of the trapping potential experienced by the trapped atoms and our plans to implement single qubit rotations on the hyperfine ground states of these atoms",

author = "\{Janse van Rensburg\}, Deon and Zhichao Guo and \{van Herk\}, \{Rik A.H.\} and Venderbosch, \{Marijn L.\} and Ivo Knottnerus and Alexander Urech and Lin, \{Shao Cheng\} and Robert Spreeuw and Florian Schreck and Lous, \{Rianne S.\} and Vredenbregt, \{Edgar J.D.\} and Kokkelmans, \{Servaas J.J.M.F\}",

year = "2023",

month = apr,

day = "4",

language = "English",

note = "NWO Physics 2023 ; Conference date: 04-04-2023 Through 05-04-2023",

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TY - CONF

T1 - Rubidium Atoms in Tweezer Arrays for Hybrid Quantum Computing

AU - Janse van Rensburg, Deon

AU - Guo, Zhichao

AU - van Herk, Rik A.H.

AU - Venderbosch, Marijn L.

AU - Knottnerus, Ivo

AU - Urech, Alexander

AU - Lin, Shao Cheng

AU - Spreeuw, Robert

AU - Schreck, Florian

AU - Lous, Rianne S.

AU - Vredenbregt, Edgar J.D.

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

PY - 2023/4/4

Y1 - 2023/4/4

N2 - Our project has the goal of building a quantum co-processor consisting of neutral atoms in tweezer arrays. This quantum co-processor will form part of an online-accessible hybrid quantum computer tailored for solving quantum chemistry problems. In this collaborative project between a team at the Eindhoven University of Technology (TU/e) and a team at the University of Amsterdam (UvA) there are three setups: a demonstrator system using rubidium atoms at TU/e, the existing 1st generation strontium-based system at UvA and the 2nd generation strontium-based system at TU/e which is being constructed. In this poster we present the status of our rubidium-based system, which is used to test various components and techniques which will be used in the 2 nd generation strontium-based system. In particular we present our progress towards trapping single 85Rb atoms in arrays of optical tweezers, characterization measurements of the trapping potential experienced by the trapped atoms and our plans to implement single qubit rotations on the hyperfine ground states of these atoms

AB - Our project has the goal of building a quantum co-processor consisting of neutral atoms in tweezer arrays. This quantum co-processor will form part of an online-accessible hybrid quantum computer tailored for solving quantum chemistry problems. In this collaborative project between a team at the Eindhoven University of Technology (TU/e) and a team at the University of Amsterdam (UvA) there are three setups: a demonstrator system using rubidium atoms at TU/e, the existing 1st generation strontium-based system at UvA and the 2nd generation strontium-based system at TU/e which is being constructed. In this poster we present the status of our rubidium-based system, which is used to test various components and techniques which will be used in the 2 nd generation strontium-based system. In particular we present our progress towards trapping single 85Rb atoms in arrays of optical tweezers, characterization measurements of the trapping potential experienced by the trapped atoms and our plans to implement single qubit rotations on the hyperfine ground states of these atoms

M3 - Poster

T2 - NWO Physics 2023

Y2 - 4 April 2023 through 5 April 2023

ER -

Rubidium Atoms in Tweezer Arrays for Hybrid Quantum Computing

Samenvatting

Congres

Vingerafdruk

Projecten

KAT-1: Rydberg Atom Quantum Computing

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