Optical Atomic Clock aboard an Earth-orbiting Space Station (OACESS): Enhancing searches for physics beyond the standard model in space

Autor: Schkolnik, Vladimir, Budker, Dmitry, Fartmann, Oliver, Flambaum, Victor, Hollberg, Leo, Kalaydzhyan, Tigran, Kolkowitz, Shimon, Krutzik, Markus, Ludlow, Andrew, Newbury, Nathan, Pyrlik, Christoph, Sinclair, Laura, Stadnik, Yevgeny, Tietje, Ingmari, Ye, Jun, Williams, Jason

Publikováno v: Quantum Sci. Technol. 8, 014003 (2023)

We present a concept for a high-precision optical atomic clock (OAC) operating on an Earth-orbiting space station. This pathfinder science mission will compare the space-based OAC with one or more ultra-stable terrestrial OACs to search for space-tim

Externí odkaz: http://arxiv.org/abs/2204.09611

Imaging a positronium cloud in a 1 Tesla

Autor: Camper Antoine, Aghion Stefano, Amsler Claude, Antonello Massimiliano, Belov Alexander, Bonomi Germano, Brusa Roberto, Caccia Massimo, Caravita Ruggero, Castelli Fabrizio, Cerchiari Giovanni, Comparat Daniel, Consolati Giovanni, Demetrio Andrea, Di Noto Lea, Doser Michael, Evans Craig, Fanì Mattia, Ferragut Rafael, Fesel Julian, Fontana Andrea, Gerber Sebastian, Giammarchi Marco, Gligorova Angela, Guatieri Francesco, Hackstock Philip, Haider Stefan, Hinterberger Alexander, Holmestad Helga, Kellerbauer Alban, Khalidova Olga, Krasnický Daniel, Lagomarsino Vittorio, Lansonneur Pierre, Lebrun Patrice, Malbrunot Chloé, Mariazzi Sebastiano, Marton Johann, Matveev Viktor, Müller Simon, Nebbia Giancarlo, Nedelec Patrick, Oberthaler Markus, Pagano Davide, Penasa Luca, Petracek Vojtech, Prelz Francesco, Prevedelli Marco, Rienaecker Benjamin, Robert Jacques, Røhne Ole, Rotondi Alberto, Sandaker Heidi, Santoro Romualdo, Smestad Lillian, Sorrentino Fiodor, Testera Gemma, Tietje Ingmari, Vujanovic Milena, Widmann Eberhard, Yzombard Pauline, Zimmer Christian, Zmeskal Johann, Zurlo Nicola

Publikováno v: EPJ Web of Conferences, Vol 198, p 00004 (2019)

We report on recent developments in positronium work in the frame of antihydrogen production through charge exchange in the AEgIS collaboration [1]. In particular, we present a new technique based on spatially imaging a cloud of positronium by collec

Externí odkaz: https://doaj.org/article/eafd0a9bbcc04973a90d3eb8e0d9242b

Tento výsledek nelze pro nepřihlášené uživatele zobrazit.
K zobrazení výsledku je třeba se přihlásit.

Positron Manipulation and Positronium Laser Excitation in AEgIS

Autor: Mariazzi, Sebastiano, Caravita, Ruggero, Aghion, Stefano, Amsler, Claude, Ariga, Akitaka, Ariga, Tomoko, Bonomi, Germano, Bräunig, Philippe, Bremer, Johan, Brusa, Roberto S., Cabaret, Luis, Caccia, Massimo, Castelli, Fabrizio, Cerchiari, G., Chlouba, Karl, Cialdi, Simone, Comparat, Daniel, Consolati, Giovanni, Demetrio, Andrea, di Noto, Lea, Doser, Michael, Dudarev, Alexey, Ereditato, Antonio, Evans, Craig, Ferragut, Rafael, Fesel, Julian, Fontana, Andrea, Forslund, Ola K., Gerber, Sebastian, Giammarchi, Marco, Gligorova, Angela, Gninenko, Sergei, Guatieri, Francesco, Haider, Stefan, Holmestad, Helga, Huse, Torkjell, Jernelv, Ine L., Jordan, Elena, Kaltenbacher, Thomas, Kellerbauer, Alban, Kimura, Mitsuhiro, Koetting, Torsten, Krasnicky, Daniel, Lagomarsino, Vittorio, Lansonneur, Pierre, Lebrun, Patrice, Lehner, Sebastian, Liberadzka, Joanna, Malbrunot, Chloe, Marx, Lisa, Matveev, Viktor, Mazzotta, Zeudi, Nebbia, Giancarlo, Nedelec, Patrick, Oberthaler, Markus, Pacifico, Nicola, Pagano, Davide, Penasa, Luca, Petracek, Vojtech, Pistillo, Ciro, Prelz, Francesco, Prevedelli, Marco, Ravelli, Luca, Resch, Laura, Rienäcker, Benjamin, Røhne, Ole M., Rosenberger, Stefan, Rotondi, Alberto, Sacerdoti, Michele, Sandaker, Heidi, Santoro, Romualdo, Scampoli, Paola, Sorrentino, Fiodor, Spacek, Michal, Storey, James, Strojek, Izabela M., Testera, Gemma, Tietje, Ingmari, Vamosi, Stefan, Widmann, Eberhard, Yzombard, Pauline, Zavatarelli, Sandra, Zmeskal, Johann

Publikováno v: Diffusion and Defect Data Part A: Defect and Diffusion Forum; March 2017, Vol. 373 Issue: 1 p11-16, 6p

Pulsed production of antihydrogen

Autor: G. Nebbia, Marco Prevedelli, M. Antonello, I. C. Tietje, B. Rienäcker, Daniel Comparat, Alberto Rotondi, M. Fanì, Sebastiano Mariazzi, O. Khalidova, Roberto S. Brusa, Nicola Zurlo, Davide Pagano, A. Camper, S.R. Müller, Markus K. Oberthaler, V. Petracek, Ole Røhne, C. Zimmer, Patrick Nedelec, Giovanni Consolati, Valerio Toso, Chloé Malbrunot, A. Hinterberger, Germano Bonomi, Lea Di Noto, P. Cheinet, Rafael Ferragut, Luca Povolo, P. Yzombard, Marco Giammarchi, Lilian Nowak, F. Prelz, J. Fesel, Sebastian Gerber, Ruggero Caravita, Emmanuel Oswald, Heidi Sandaker, Romualdo Santoro, Alban Kellerbauer, A. S. Belov, Luca Penasa, F. Guatieri, Angela Gligorova, Lisa Theresa Glöggler, Viktor Matveev, T. Wolz, Claude Amsler, D. Krasnický, A. Demetrio, G. Testera, Fabrizio Castelli, Michael Doser, S. Haider, Massimo Caccia, V. Lagomarsino

Publikováno v: Commun.Phys.
Commun.Phys., 2021, 4 (1), pp.19. ⟨10.1038/s42005-020-00494-z⟩
Communications Physics
Communications Physics, Vol 4, Iss 1, Pp 1-11 (2021)

Antihydrogen atoms with K or sub-K temperature are a powerful tool to precisely probe the validity of fundamental physics laws and the design of highly sensitive experiments needs antihydrogen with controllable and well defined conditions. We present

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::a5ac0f973e3eda0f816058c60d196bed
http://hdl.handle.net/11379/539821