TY - UNPB
T1 - Topical white paper
T2 - a case for quantum memories in space
AU - Gündoğan, Mustafa
AU - Jennewein, Thomas
AU - Asadi, Faezeh Kimiaee
AU - Ros, Elisa Da
AU - Sağlamyürek, Erhan
AU - Oblak, Daniel
AU - Vogl, Tobias
AU - Rieländer, Daniel
AU - Sidhu, Jasminder
AU - Grandi, Samuele
AU - Mazzarella, Luca
AU - Wallnöfer, Julius
AU - Ledingham, Patrick
AU - LeBlanc, Lindsay
AU - Mazzera, Margherita
AU - Mohageg, Makan
AU - Wolters, Janik
AU - Ling, Alexander
AU - Atatüre, Mete
AU - Riedmatten, Hugues de
AU - Oi, Daniel
AU - Simon, Christoph
AU - Krutzik, Markus
N1 - Toptical white paper submitted to National Academies of Sciences, Engineering and Medicine's Decadal Survey on Biological and Physical Sciences Research in Space 2023-2032
PY - 2021/11/18
Y1 - 2021/11/18
N2 - It has recently been theoretically shown that Quantum Memories (QM) could enable truly global quantum networking when deployed in space thereby surpassing the limited range of land-based quantum repeaters. Furthermore, QM in space could enable novel protocols and long-range entanglement and teleportation applications suitable for Deep-Space links and extended scenarios for fundamental physics tests. In this white paper we will make the case for the importance of deploying QMs to space, and also discuss the major technical milestones and development stages that will need to be considered.
AB - It has recently been theoretically shown that Quantum Memories (QM) could enable truly global quantum networking when deployed in space thereby surpassing the limited range of land-based quantum repeaters. Furthermore, QM in space could enable novel protocols and long-range entanglement and teleportation applications suitable for Deep-Space links and extended scenarios for fundamental physics tests. In this white paper we will make the case for the importance of deploying QMs to space, and also discuss the major technical milestones and development stages that will need to be considered.
KW - quantum memories
KW - space applications
KW - ultra-long distance entanglement
KW - teleportation experiments
KW - quantum communication
UR - https://arxiv.org/abs/2111.09595v2
M3 - Working Paper/Preprint
BT - Topical white paper
CY - Ithaca, N.Y.
ER -