Sensing Interactions in Atomic Quantum Systems

L. Verwaal; Claudia Galantini; Rogier C. Venderbosch; Iris Podbevsek; Evan Ichir; Edgar J.D. Vredenbregt; Rianne S.  Lous

Sensing Interactions in Atomic Quantum Systems

L. Verwaal, Claudia Galantini, Rogier C. Venderbosch, Iris Podbevsek, Evan Ichir, Edgar J.D. Vredenbregt, Rianne S. Lous

Research output: Contribution to conference › Poster

Abstract

Hybrid ion-atom systems combine the well-controllable platforms of trapped ions and ultracold quantum gases and link them together by the intermediate-range ion-atom interaction. These quantum systems offer opportunities for buffer gas cooling, quantum simulation of manybody systems, as well as state-to-state quantum chemistry [1]. To fully benefit from the combination, it is essential to understand, characterize, and control the interactions between the atoms and ions. Therefore, at TU/e, a new experimental setup is being built to go beyond alkali and exploit the novel combination of a trapped ion – Yb+ - with dipolar atoms - Dy. This mixture offers new opportunities and here we present the progress on the design and development.

Original language	English
Publication status	Published - 15 Oct 2024
Event	47th Annual Meeting NNV AMO - Egmond aan Zee, Netherlands Duration: 15 Oct 2024 → 16 Oct 2024

Conference

Conference	47th Annual Meeting NNV AMO
Country/Territory	Netherlands
City	Egmond aan Zee
Period	15/10/24 → 16/10/24

Cite this

@conference{aec6b60b0cbd4fdebefb556f0785af1d,

title = "Sensing Interactions in Atomic Quantum Systems",

abstract = "Hybrid ion-atom systems combine the well-controllable platforms of trapped ions and ultracold quantum gases and link them together by the intermediate-range ion-atom interaction. These quantum systems offer opportunities for buffer gas cooling, quantum simulation of manybody systems, as well as state-to-state quantum chemistry [1]. To fully benefit from the combination, it is essential to understand, characterize, and control the interactions between the atoms and ions. Therefore, at TU/e, a new experimental setup is being built to go beyond alkali and exploit the novel combination of a trapped ion – Yb+ - with dipolar atoms - Dy. This mixture offers new opportunities and here we present the progress on the design and development.",

author = "L. Verwaal and Claudia Galantini and Venderbosch, {Rogier C.} and Iris Podbevsek and Evan Ichir and Vredenbregt, {Edgar J.D.} and Lous, {Rianne S.}",

year = "2024",

month = oct,

day = "15",

language = "English",

note = "47th Annual Meeting NNV AMO ; Conference date: 15-10-2024 Through 16-10-2024",

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TY - CONF

T1 - Sensing Interactions in Atomic Quantum Systems

AU - Verwaal, L.

AU - Galantini, Claudia

AU - Venderbosch, Rogier C.

AU - Podbevsek, Iris

AU - Ichir, Evan

AU - Vredenbregt, Edgar J.D.

AU - Lous, Rianne S.

PY - 2024/10/15

Y1 - 2024/10/15

N2 - Hybrid ion-atom systems combine the well-controllable platforms of trapped ions and ultracold quantum gases and link them together by the intermediate-range ion-atom interaction. These quantum systems offer opportunities for buffer gas cooling, quantum simulation of manybody systems, as well as state-to-state quantum chemistry [1]. To fully benefit from the combination, it is essential to understand, characterize, and control the interactions between the atoms and ions. Therefore, at TU/e, a new experimental setup is being built to go beyond alkali and exploit the novel combination of a trapped ion – Yb+ - with dipolar atoms - Dy. This mixture offers new opportunities and here we present the progress on the design and development.

AB - Hybrid ion-atom systems combine the well-controllable platforms of trapped ions and ultracold quantum gases and link them together by the intermediate-range ion-atom interaction. These quantum systems offer opportunities for buffer gas cooling, quantum simulation of manybody systems, as well as state-to-state quantum chemistry [1]. To fully benefit from the combination, it is essential to understand, characterize, and control the interactions between the atoms and ions. Therefore, at TU/e, a new experimental setup is being built to go beyond alkali and exploit the novel combination of a trapped ion – Yb+ - with dipolar atoms - Dy. This mixture offers new opportunities and here we present the progress on the design and development.

M3 - Poster

T2 - 47th Annual Meeting NNV AMO

Y2 - 15 October 2024 through 16 October 2024

ER -

Sensing Interactions in Atomic Quantum Systems

Abstract

Conference

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