Quantum physics in space

verfasst von: Alessio Belenchia, Matteo Carlesso, Ömer Bayraktar, Daniele Dequal, Ivan Derkach, Giulio Gasbarri, Waldemar Herr, Ying Lia Li, Markus Rademacher, Jasminder Sidhu, Daniel K.L. Oi, Stephan T. Seidel, Rainer Kaltenbaek, Christoph Marquardt, Hendrik Ulbricht, Vladyslav C. Usenko, Lisa Wörner, André Xuereb, Mauro Paternostro, Angelo Bassi
Abstract: Advances in quantum technologies are giving rise to a revolution in the way fundamental physics questions are explored at the empirical level. At the same time, they are the seeds for future disruptive technological applications of quantum physics. Remarkably, a space-based environment may open many new avenues for exploring and employing quantum physics and technologies. Recently, space missions employing quantum technologies for fundamental or applied studies have been proposed and implemented with stunning results. The combination of quantum physics and its space application is the focus of this review: we cover both the fundamental scientific questions that can be tackled with quantum technologies in space and the possible implementation of these technologies for a variety of academic and commercial purposes.
Organisationseinheit(en): Institut für Quantenoptik
QuantumFrontiers
SFB 1464: Relativistische und quanten-basierte Geodäsie (TerraQ)
Externe Organisation(en): Eberhard Karls Universität Tübingen
Queen's University Belfast
Max-Planck-Institut für die Physik des Lichts
Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU Erlangen-Nürnberg)
Italian Space Agency (ASI)
Palacky University
Universidad Autónoma de Barcelona (UAB)
University of Southampton
University College London (UCL)
University of Strathclyde
Airbus Group
University of Ljubljana
Austrian Academy of Sciences
Universität Bremen
Deutsches Zentrum für Luft- und Raumfahrt e.V. (DLR)
University of Malta
University of Trieste
Istituto Nazionale di Fisica Nucleare (INFN)
Università degli Studi di Firenze (UniFi)
Typ: Übersichtsarbeit
Journal: Physics reports
Band: 951
Seiten: 1-70
Anzahl der Seiten: 70
ISSN: 0370-1573
Publikationsdatum: 11.03.2022
Publikationsstatus: Veröffentlicht
Peer-reviewed: Ja
ASJC Scopus Sachgebiete: Physik und Astronomie (insg.)
Elektronische Version(en): https://doi.org/10.1016/j.physrep.2021.11.004 (Zugang: Offen)

BibTeX

@article{99037cc93730410cbd4825db99f78f04,
title = "Quantum physics in space",
abstract = "Advances in quantum technologies are giving rise to a revolution in the way fundamental physics questions are explored at the empirical level. At the same time, they are the seeds for future disruptive technological applications of quantum physics. Remarkably, a space-based environment may open many new avenues for exploring and employing quantum physics and technologies. Recently, space missions employing quantum technologies for fundamental or applied studies have been proposed and implemented with stunning results. The combination of quantum physics and its space application is the focus of this review: we cover both the fundamental scientific questions that can be tackled with quantum technologies in space and the possible implementation of these technologies for a variety of academic and commercial purposes.",
keywords = "Quantum physics, Quantum technology, Space",
author = "Alessio Belenchia and Matteo Carlesso and {\"O}mer Bayraktar and Daniele Dequal and Ivan Derkach and Giulio Gasbarri and Waldemar Herr and Li, {Ying Lia} and Markus Rademacher and Jasminder Sidhu and Oi, {Daniel K.L.} and Seidel, {Stephan T.} and Rainer Kaltenbaek and Christoph Marquardt and Hendrik Ulbricht and Usenko, {Vladyslav C.} and Lisa W{\"o}rner and Andr{\'e} Xuereb and Mauro Paternostro and Angelo Bassi",
note = "Funding Information: A. Belenchia acknowledges support from the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) project number BR 5221/4-1 , the MSCA project pERFEcTO (Grant No. 795782 ). Funding Information: A. Bassi acknowledges financial support from the INFN, the University of Trieste and the support by grant number (FQXi-RFP-CPW-2002) from the Foundational Questions Institute and Fetzer Franklin Fund , a donor advised fund of Silicon Valley Community Foundation . Funding Information: Y.L. Li acknowledges financial support from a Royal Academy of Engineering Intelligence Community Postdoctoral Fellowship Award: ICRF1920-3-10 . Funding Information: G. Gasbarri acknowledges support from the Spanish Agencia Estatal de Investigaci{\'o}n , project PID2019-107609GB-I00 , Spanish MINECO FIS2016-80681-P (AEI/FEDER, UE), Generalitat de Catalunya CIRIT 2017-SGR-1127, from QuantERA grant ”C{\textquoteright}MON-QSENS!”, by Spanish MICINN PCI2019-111869-2 , and the Leverhulme Trust ( RPG-2016- 046 ) Funding Information: M. Rademacher acknowledges funding from the EPSRC Grant No. EP/S000267/1 . Funding Information: The present review is one of the major outcomes of the coordination activities of the COST Action QTSpace, whose goal is to promote research and collaborations for the development of Quantum Technologies for Space applications, and for the study of fundamental physics in Space. All the authors acknowledge partial support from COST Action QTSpace (CA15220). A. Belenchia acknowledges support from the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) project number BR 5221/4-1, the MSCA project pERFEcTO (Grant No. 795782). G. Gasbarri acknowledges support from the Spanish Agencia Estatal de Investigaci?n, project PID2019-107609GB-I00, Spanish MINECOFIS2016-80681-P (AEI/FEDER, UE), Generalitat de Catalunya CIRIT 2017-SGR-1127, from QuantERA grant ?C'MON-QSENS!?, by Spanish MICINNPCI2019-111869-2, and the Leverhulme Trust (RPG-2016- 046), W. Herr acknowledges financial support from the German Space Agency (DLR) with funds provided by the Federal Ministry for Economic Affairs and Energy (BMWi) due to an enactment of the German Bundestag under Grant No. DLR 50WM1952 ?QUANTUS-V Fallturm? and from ?Nieders?chsisches Vorab? through the ?Quantum- and Nano-Metrology (QUANOMET)? initiative within the project QT3 as well as through ?F?rderung von Wissenschaft und Technik in Forschung und Lehre? for the initial funding of research in the new DLR-SI. Additionally W. Herr acknowledges support by the Deutsche Forschungsgemeinschaft (DFG, German Reasearch Foundation) ? project-ID 434617780 ? SFB 1464 TerraQ and under Germany's Excellence Strategy ? project-ID 390837967 ? EXC-2123 QuantumFrontiers. Y.L. Li acknowledges financial support from a Royal Academy of Engineering Intelligence Community Postdoctoral Fellowship Award: ICRF1920-3-10. M. Rademacher acknowledges funding from the EPSRC Grant No. EP/S000267/1. R. Kaltenbaek acknowledges support by the Austrian Research Promotion Agency (projects 854036 and 865996) and by the Slovenian Research Agency (research projects N1-0180, J2-2514, J1-9145 and P1-0125). L. Woerner acknowledges financial support through the newly funded DLR institutes, DLR-QT and DLR-GK and the DLR ?Wettbewerb der Visionen? through the Federal Ministry for Economic Affairs and Energy (BMWi). A. Xuereb is supported by the European Union's Horizon 2020 research and innovation programme under grant agreement No 732894 (FET-Proactive HOT) and grant agreement No 101004341 (QUANGO), by the NATO Science for Peace and Security programme under grant agreement No G5485 (SEQUEL), and by the Julian Schwinger Foundation (TOM). M. Paternostro is supported by the DfE-SFI Investigator Programme (grant 15/IA/2864), the Royal Society Wolfson Research Fellowship (RSWF\R3\183013) and the Leverhulme Trust Research Project Grant (grant nr. RGP-2018-266). A. Bassi acknowledges financial support from the INFN, the University of Trieste and the support by grant number (FQXi-RFP-CPW-2002) from the Foundational Questions Institute and Fetzer Franklin Fund, a donor advised fund of Silicon Valley Community Foundation. M. Carlesso, H. Ulbricht, M. Paternostro and A. Bassi are supported by the H2020 FET Project TEQ (Grant No. 766900). M. Carlesso and M. Paternostro acknowledge support from UK EPSRC (grant nr. EP/T028106/1). I. Derkach and V.C. Usenko acknowledge support from European Union's Horizon 2020 research and innovation programme project CiViQ (grant agreement no. 820466) and from the project 19-23739S of the Czech Science Foundation. J.S. Sidhu and D.K.L. Oi acknowledge the support of EPSRC via the Quantum Communications Hub through grant number EP/T001011/1. D.K.L. Oi also acknowledges EPSRC grant EP/T517288/1. Funding Information: Consortia in between academia and industry, like the Horizon 2020 project Optomechanical Technologies and the European Photonics Industry Consortium (EPIC), allow for early exposure to commercial supply chains, standardization, industrial co-developers and alternative funding streams. The longevity of consortia relies on consistent funding — for example, EPIC is funded through membership fees, with industry members charged proportionally to their size. Relying on research grant funding is not sufficient to maintain thriving communities due to the life-cycle of grants and the academic workforce. Funding Information: L. Woerner acknowledges financial support through the newly funded DLR institutes, DLR-QT and DLR-GK and the DLR {\textquoteleft}Wettbewerb der Visionen{\textquoteright} through the Federal Ministry for Economic Affairs and Energy (BMWi) . Funding Information: The present review is one of the major outcomes of the coordination activities of the COST Action QTSpace, whose goal is to promote research and collaborations for the development of Quantum Technologies for Space applications, and for the study of fundamental physics in Space. All the authors acknowledge partial support from COST Action QTSpace ( CA15220 ). Funding Information: A. Xuereb is supported by the European Union{\textquoteright}s Horizon 2020 research and innovation programme under grant agreement No 732894 (FET-Proactive HOT) and grant agreement No 101004341 (QUANGO), by the NATO Science for Peace and Security programme under grant agreement No G5485 (SEQUEL), and by the Julian Schwinger Foundation (TOM) . Funding Information: R. Kaltenbaek acknowledges support by the Austrian Research Promotion Agency (projects 854036 and 865996 ) and by the Slovenian Research Agency (research projects N1-0180 , J2-2514 , J1-9145 and P1-0125 ). Funding Information: W. Herr acknowledges financial support from the German Space Agency (DLR) with funds provided by the Federal Ministry for Economic Affairs and Energy (BMWi) due to an enactment of the German Bundestag under Grant No. DLR 50WM1952 “QUANTUS-V Fallturm” and from “Nieders{\"a}chsisches Vorab” through the “Quantum- and Nano-Metrology (QUANOMET)” initiative within the project QT3 as well as through “F{\"o}rderung von Wissenschaft und Technik in Forschung und Lehre“ for the initial funding of research in the new DLR-SI. Additionally W. Herr acknowledges support by the Deutsche Forschungsgemeinschaft (DFG, German Reasearch Foundation) – project-ID 434617780 – SFB 1464 TerraQ and under Germany{\textquoteright}s Excellence Strategy – project-ID 390837967 – EXC-2123 QuantumFrontiers. Funding Information: M. Paternostro is supported by the DfE-SFI Investigator Programme (grant 15/IA/2864 ), the Royal Society Wolfson Research Fellowship ( RSWF\R3\183013 ) and the Leverhulme Trust Research Project Grant (grant nr. RGP-2018-266 ). Funding Information: I. Derkach and V.C. Usenko acknowledge support from European Union{\textquoteright}s Horizon 2020 research and innovation programme project CiViQ (grant agreement no. 820466 ) and from the project 19-23739S of the Czech Science Foundation . Funding Information: M. Carlesso, H. Ulbricht, M. Paternostro and A. Bassi are supported by the H2020 FET Project TEQ (Grant No. 766900 ). Funding Information: M. Carlesso and M. Paternostro acknowledge support from UK EPSRC (grant nr. EP/T028106/1 ). ",
year = "2022",
month = mar,
day = "11",
doi = "10.1016/j.physrep.2021.11.004",
language = "English",
volume = "951",
pages = "1--70",
journal = "Physics reports",
issn = "0370-1573",
publisher = "Elsevier",
}