학술논문
SAGE: A Proposal for a Space Atomic Gravity Explorer
Document Type
Working Paper
Author
Tino, G. M.; Bassi, A.; Bianco, G.; Bongs, K.; Bouyer, P.; Cacciapuoti, L.; Capozziello, S.; Chen, X.; Chiofalo, M. L.; Derevianko, A.; Ertmer, W.; Gaaloul, N.; Gill, P.; Graham, P. W.; Hogan, J. M.; Iess, L.; Kasevich, M. A.; Katori, H.; Klempt, C.; Lu, X.; Ma, L. -S.; Müller, H.; Newbury, N. R.; Oates, C.; Peters, A.; Poli, N.; Rasel, E.; Rosi, G.; Roura, A.; Salomon, C.; Schiller, S.; Schleich, W.; Schlippert, D.; Schreck, F.; Schubert, C.; Sorrentino, F.; Sterr, U.; Thomsen, J. W.; Vallone, G.; Vetrano, F.; Villoresi, P.; von Klitzing, W.; Wilkowski, D.; Wolf, P.; Ye, J.; Yu, N.; Zhan, M. S.
Source
Eur. Phys. J. D 73, 228 (2019)
Subject
Language
Abstract
The proposed mission "Space Atomic Gravity Explorer" (SAGE) has the scientific objective to investigate gravitational waves, dark matter, and other fundamental aspects of gravity as well as the connection between gravitational physics and quantum physics using new quantum sensors, namely, optical atomic clocks and atom interferometers based on ultracold strontium atoms.
Comment: Published in Eur. Phys. J. D 73 (2019) 228 in the Topical Issue Quantum Technologies for Gravitational Physics, Guest editors Tanja Mehlstaubler, Yanbei Chen, Guglielmo M. Tino and Hsien-Chi Yeh
Comment: Published in Eur. Phys. J. D 73 (2019) 228 in the Topical Issue Quantum Technologies for Gravitational Physics, Guest editors Tanja Mehlstaubler, Yanbei Chen, Guglielmo M. Tino and Hsien-Chi Yeh