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| Natura: | Preprint |
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2022
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| Accesso online: | https://arxiv.org/abs/2211.15412 |
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| _version_ | 1866912381647454208 |
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| author | Gaaloul, Naceur Ahlers, Holger Badurina, Leonardo Bassi, Angelo Battelier, Baptiste Beaufils, Quentin Bongs, Kai Bouyer, Philippe Braxmaier, Claus Buchmueller, Oliver Carlesso, Matteo Charron, Eric Chiofalo, Maria Luisa Corgier, Robin Donadi, Sandro Droz, Fabien Ellis, John Estève, Frédéric Giese, Enno Grosse, Jens Hees, Aurélien Hensel, Thomas A. Herr, Waldemar Jetzer, Philippe Kleinsteinberg, Gina Klempt, Carsten Lecomte, Steve Lopes, Louise Loriani, Sina Martín, Victor Métris, Gilles Müller, Gabriel Nofrarias, Miquel Santos, Franck Pereira Dos Rasel, Ernst M. Salter, Mike Schlippert, Dennis Schubert, Christian Schuldt, Thilo Sopuerta, Carlos F. Struckmann, Christian Tino, Guglielmo M. Valenzuela, Tristan von Klitzing, Wolf Wörner, Lisa Yu, Nan Zelan, Martin Wolf, Peter |
| author_facet | Gaaloul, Naceur Ahlers, Holger Badurina, Leonardo Bassi, Angelo Battelier, Baptiste Beaufils, Quentin Bongs, Kai Bouyer, Philippe Braxmaier, Claus Buchmueller, Oliver Carlesso, Matteo Charron, Eric Chiofalo, Maria Luisa Corgier, Robin Donadi, Sandro Droz, Fabien Ellis, John Estève, Frédéric Giese, Enno Grosse, Jens Hees, Aurélien Hensel, Thomas A. Herr, Waldemar Jetzer, Philippe Kleinsteinberg, Gina Klempt, Carsten Lecomte, Steve Lopes, Louise Loriani, Sina Martín, Victor Métris, Gilles Müller, Gabriel Nofrarias, Miquel Santos, Franck Pereira Dos Rasel, Ernst M. Salter, Mike Schlippert, Dennis Schubert, Christian Schuldt, Thilo Sopuerta, Carlos F. Struckmann, Christian Tino, Guglielmo M. Valenzuela, Tristan von Klitzing, Wolf Wörner, Lisa Yu, Nan Zelan, Martin Wolf, Peter |
| contents | Space-borne quantum technologies, particularly those based on atom interferometry, are heralding a new era of strategic and robust space exploration. The unique conditions of space, characterized by low noise and low gravity environments, open up diverse possibilities for applications ranging from precise time and frequency transfer to Earth Observation and the search of new Physics. In this paper, we summarise the M-class mission proposal in response to the 2022 call in ESA's science program: Space-Time Explorer and Quantum Equivalence Principle Space Test (STE-QUEST). It consists in a satellite mission featuring a dual-species atom interferometer operating over extended durations. This mission aims to tackle three of the most fundamental questions in Physics: (i) testing the universality of free fall with an accuracy better than one part in $10^{-17}$, (ii) exploring various forms of Ultra-Light Dark Matter, and (iii) scrutinizing the foundations of Quantum Mechanics. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2211_15412 |
| institution | arXiv |
| publishDate | 2022 |
| record_format | arxiv |
| spellingShingle | STE-QUEST -- Space Time Explorer and QUantum Equivalence principle Space Test: The 2022 medium-class mission concept Gaaloul, Naceur Ahlers, Holger Badurina, Leonardo Bassi, Angelo Battelier, Baptiste Beaufils, Quentin Bongs, Kai Bouyer, Philippe Braxmaier, Claus Buchmueller, Oliver Carlesso, Matteo Charron, Eric Chiofalo, Maria Luisa Corgier, Robin Donadi, Sandro Droz, Fabien Ellis, John Estève, Frédéric Giese, Enno Grosse, Jens Hees, Aurélien Hensel, Thomas A. Herr, Waldemar Jetzer, Philippe Kleinsteinberg, Gina Klempt, Carsten Lecomte, Steve Lopes, Louise Loriani, Sina Martín, Victor Métris, Gilles Müller, Gabriel Nofrarias, Miquel Santos, Franck Pereira Dos Rasel, Ernst M. Salter, Mike Schlippert, Dennis Schubert, Christian Schuldt, Thilo Sopuerta, Carlos F. Struckmann, Christian Tino, Guglielmo M. Valenzuela, Tristan von Klitzing, Wolf Wörner, Lisa Yu, Nan Zelan, Martin Wolf, Peter Space Physics General Relativity and Quantum Cosmology High Energy Physics - Experiment High Energy Physics - Phenomenology Quantum Physics Space-borne quantum technologies, particularly those based on atom interferometry, are heralding a new era of strategic and robust space exploration. The unique conditions of space, characterized by low noise and low gravity environments, open up diverse possibilities for applications ranging from precise time and frequency transfer to Earth Observation and the search of new Physics. In this paper, we summarise the M-class mission proposal in response to the 2022 call in ESA's science program: Space-Time Explorer and Quantum Equivalence Principle Space Test (STE-QUEST). It consists in a satellite mission featuring a dual-species atom interferometer operating over extended durations. This mission aims to tackle three of the most fundamental questions in Physics: (i) testing the universality of free fall with an accuracy better than one part in $10^{-17}$, (ii) exploring various forms of Ultra-Light Dark Matter, and (iii) scrutinizing the foundations of Quantum Mechanics. |
| title | STE-QUEST -- Space Time Explorer and QUantum Equivalence principle Space Test: The 2022 medium-class mission concept |
| topic | Space Physics General Relativity and Quantum Cosmology High Energy Physics - Experiment High Energy Physics - Phenomenology Quantum Physics |
| url | https://arxiv.org/abs/2211.15412 |