Perspectives and opportunities: a molecular toolkit for fundamental physics and matter-wave interferometry in microgravity *

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Perspectives and opportunities : a molecular toolkit for fundamental physics and matter-wave interferometry in microgravity *. / D'Incao, Jose P.; Williams, Jason R.; Gaaloul, Naceur; Efremov, Maxim A.; Nimmrichter, Stefan; Schrinski, Bjoern; Elliott, Ethan; Ketterle, Wolfgang.

I: Quantum Science and Technology, Bind 8, Nr. 1, 014004, 17.11.2022.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

D'Incao, JP, Williams, JR, Gaaloul, N, Efremov, MA, Nimmrichter, S, Schrinski, B, Elliott, E & Ketterle, W 2022, 'Perspectives and opportunities: a molecular toolkit for fundamental physics and matter-wave interferometry in microgravity *', Quantum Science and Technology, bind 8, nr. 1, 014004. https://doi.org/10.1088/2058-9565/aca04a

APA

D'Incao, J. P., Williams, J. R., Gaaloul, N., Efremov, M. A., Nimmrichter, S., Schrinski, B., Elliott, E., & Ketterle, W. (2022). Perspectives and opportunities: a molecular toolkit for fundamental physics and matter-wave interferometry in microgravity *. Quantum Science and Technology, 8(1), [014004]. https://doi.org/10.1088/2058-9565/aca04a

Vancouver

D'Incao JP, Williams JR, Gaaloul N, Efremov MA, Nimmrichter S, Schrinski B o.a. Perspectives and opportunities: a molecular toolkit for fundamental physics and matter-wave interferometry in microgravity *. Quantum Science and Technology. 2022 nov. 17;8(1). 014004. https://doi.org/10.1088/2058-9565/aca04a

Author

D'Incao, Jose P. ; Williams, Jason R. ; Gaaloul, Naceur ; Efremov, Maxim A. ; Nimmrichter, Stefan ; Schrinski, Bjoern ; Elliott, Ethan ; Ketterle, Wolfgang. / Perspectives and opportunities : a molecular toolkit for fundamental physics and matter-wave interferometry in microgravity *. I: Quantum Science and Technology. 2022 ; Bind 8, Nr. 1.

Bibtex

@article{7f27d24cee6b484983fc5232151cd960,
title = "Perspectives and opportunities: a molecular toolkit for fundamental physics and matter-wave interferometry in microgravity *",
abstract = "The study of molecular physics using ultracold gases has provided a unique probe into the fundamental properties of nature and offers new tools for quantum technologies. In this article we outline how ultracold molecular physics in a space environment opens opportunities for (a) exploring ultra-low energy regimes of molecular physics with high efficiency, (b) providing a toolbox of capabilities for fundamental physics, and (c) enabling new classes of matter-wave interferometers with applications in precision measurement for fundamental and many-body physics.",
keywords = "ultracold quantum gases, microgravity, molecular physics, atom interferometry, BOSE-EINSTEIN CONDENSATION, FESHBACH RESONANCES, TIME-VARIATION, SPACE, ATOMS, GAS, SYSTEMS, MASS",
author = "D'Incao, {Jose P.} and Williams, {Jason R.} and Naceur Gaaloul and Efremov, {Maxim A.} and Stefan Nimmrichter and Bjoern Schrinski and Ethan Elliott and Wolfgang Ketterle",
year = "2022",
month = nov,
day = "17",
doi = "10.1088/2058-9565/aca04a",
language = "English",
volume = "8",
journal = "Quantum Science and Technology",
issn = "2058-9565",
publisher = "Institute of Physics Publishing Ltd",
number = "1",

}

RIS

TY - JOUR

T1 - Perspectives and opportunities

T2 - a molecular toolkit for fundamental physics and matter-wave interferometry in microgravity *

AU - D'Incao, Jose P.

AU - Williams, Jason R.

AU - Gaaloul, Naceur

AU - Efremov, Maxim A.

AU - Nimmrichter, Stefan

AU - Schrinski, Bjoern

AU - Elliott, Ethan

AU - Ketterle, Wolfgang

PY - 2022/11/17

Y1 - 2022/11/17

N2 - The study of molecular physics using ultracold gases has provided a unique probe into the fundamental properties of nature and offers new tools for quantum technologies. In this article we outline how ultracold molecular physics in a space environment opens opportunities for (a) exploring ultra-low energy regimes of molecular physics with high efficiency, (b) providing a toolbox of capabilities for fundamental physics, and (c) enabling new classes of matter-wave interferometers with applications in precision measurement for fundamental and many-body physics.

AB - The study of molecular physics using ultracold gases has provided a unique probe into the fundamental properties of nature and offers new tools for quantum technologies. In this article we outline how ultracold molecular physics in a space environment opens opportunities for (a) exploring ultra-low energy regimes of molecular physics with high efficiency, (b) providing a toolbox of capabilities for fundamental physics, and (c) enabling new classes of matter-wave interferometers with applications in precision measurement for fundamental and many-body physics.

KW - ultracold quantum gases

KW - microgravity

KW - molecular physics

KW - atom interferometry

KW - BOSE-EINSTEIN CONDENSATION

KW - FESHBACH RESONANCES

KW - TIME-VARIATION

KW - SPACE

KW - ATOMS

KW - GAS

KW - SYSTEMS

KW - MASS

U2 - 10.1088/2058-9565/aca04a

DO - 10.1088/2058-9565/aca04a

M3 - Journal article

VL - 8

JO - Quantum Science and Technology

JF - Quantum Science and Technology

SN - 2058-9565

IS - 1

M1 - 014004

ER -

ID: 333619435