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Monte-Carlo simulation of positronium laser excitation and anti-hydrogen formation via charge exchange
The AEgIS experiment aims at producing antihydrogen (and eventually measuring the effects of the Earth gravitational field on it) with a method based on the charge exchange reaction between antiproton and Rydberg positronium. To be precise, antiprotons are delivered by the CERN Antiproton Decelerato...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2019
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1007/s10751-019-1553-3 http://cds.cern.ch/record/2800930 |
| _version_ | 1780972667159969792 |
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| author | Zurlo, Nicola Aghion, Stefano Amsler, Claude Antonello, Massimiliano Belov, Alexandre Bonomi, Germano Brusa, Roberto S Caccia, Massimo Camper, Antoine Caravita, Ruggero Castelli, Fabrizio Cerchiari, Giovanni Comparat, Daniel Consolati, Giovanni Demetrio, Andrea 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, Alex Holmestad, Helga Kellerbauer, Alban Khalidova, Olga Krasnický, Daniel Lagomarsino, Vittorio Lansonneur, Pierre Lebrun, Patrice Malbrunot, Chloe Mariazzi, Sebastiano Marton, Johann Matveev, Victor A Müller, Simon R Nebbia, Giancarlo Nedelec, Patrick Oberthaler, Marcus Pagano, Davide Penasa, Luca Petracek, Vojtech Prelz, Francesco Prevedelli, Marco Rienaecker, Benjamin Robert, Jacques Røhne, Ole M Rotondi, Alberto Sacerdoti, Michele Sandaker, Heidi Santoro, Romualdo Smestad, Lillian Sorrentino, Fiodor Testera, Gemma Tietje, Ingmari C Vujanovic, Milena Widmann, Eberhard Yzombard, Pauline Zimmer, Christian Zmeskal, Johann |
| author_facet | Zurlo, Nicola Aghion, Stefano Amsler, Claude Antonello, Massimiliano Belov, Alexandre Bonomi, Germano Brusa, Roberto S Caccia, Massimo Camper, Antoine Caravita, Ruggero Castelli, Fabrizio Cerchiari, Giovanni Comparat, Daniel Consolati, Giovanni Demetrio, Andrea 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, Alex Holmestad, Helga Kellerbauer, Alban Khalidova, Olga Krasnický, Daniel Lagomarsino, Vittorio Lansonneur, Pierre Lebrun, Patrice Malbrunot, Chloe Mariazzi, Sebastiano Marton, Johann Matveev, Victor A Müller, Simon R Nebbia, Giancarlo Nedelec, Patrick Oberthaler, Marcus Pagano, Davide Penasa, Luca Petracek, Vojtech Prelz, Francesco Prevedelli, Marco Rienaecker, Benjamin Robert, Jacques Røhne, Ole M Rotondi, Alberto Sacerdoti, Michele Sandaker, Heidi Santoro, Romualdo Smestad, Lillian Sorrentino, Fiodor Testera, Gemma Tietje, Ingmari C Vujanovic, Milena Widmann, Eberhard Yzombard, Pauline Zimmer, Christian Zmeskal, Johann |
| author_sort | Zurlo, Nicola |
| collection | CERN |
| description | The AEgIS experiment aims at producing antihydrogen (and eventually measuring the effects of the Earth gravitational field on it) with a method based on the charge exchange reaction between antiproton and Rydberg positronium. To be precise, antiprotons are delivered by the CERN Antiproton Decelerator (AD) and are trapped in a multi-ring Penning trap, while positronium is produced by a nanoporous silica target and is excited to Rydberg states by means of a two steps laser excitation. New Monte Carlo simulations are presented in this paper in order to investigate the current status of the AEgIS experiment [1] and to interpret the recently collected data [2]. |
| id | cern-2800930 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2019 |
| record_format | invenio |
| spelling | cern-28009302022-02-03T19:42:55Zdoi:10.1007/s10751-019-1553-3http://cds.cern.ch/record/2800930engZurlo, NicolaAghion, StefanoAmsler, ClaudeAntonello, MassimilianoBelov, AlexandreBonomi, GermanoBrusa, Roberto SCaccia, MassimoCamper, AntoineCaravita, RuggeroCastelli, FabrizioCerchiari, GiovanniComparat, DanielConsolati, GiovanniDemetrio, AndreaNoto, LeaDoser, MichaelEvans, CraigFanì, MattiaFerragut, RafaelFesel, JulianFontana, AndreaGerber, SebastianGiammarchi, MarcoGligorova, AngelaGuatieri, FrancescoHackstock, PhilipHaider, StefanHinterberger, AlexHolmestad, HelgaKellerbauer, AlbanKhalidova, OlgaKrasnický, DanielLagomarsino, VittorioLansonneur, PierreLebrun, PatriceMalbrunot, ChloeMariazzi, SebastianoMarton, JohannMatveev, Victor AMüller, Simon RNebbia, GiancarloNedelec, PatrickOberthaler, MarcusPagano, DavidePenasa, LucaPetracek, VojtechPrelz, FrancescoPrevedelli, MarcoRienaecker, BenjaminRobert, JacquesRøhne, Ole MRotondi, AlbertoSacerdoti, MicheleSandaker, HeidiSantoro, RomualdoSmestad, LillianSorrentino, FiodorTestera, GemmaTietje, Ingmari CVujanovic, MilenaWidmann, EberhardYzombard, PaulineZimmer, ChristianZmeskal, JohannMonte-Carlo simulation of positronium laser excitation and anti-hydrogen formation via charge exchangePhysics in GeneralThe AEgIS experiment aims at producing antihydrogen (and eventually measuring the effects of the Earth gravitational field on it) with a method based on the charge exchange reaction between antiproton and Rydberg positronium. To be precise, antiprotons are delivered by the CERN Antiproton Decelerator (AD) and are trapped in a multi-ring Penning trap, while positronium is produced by a nanoporous silica target and is excited to Rydberg states by means of a two steps laser excitation. New Monte Carlo simulations are presented in this paper in order to investigate the current status of the AEgIS experiment [1] and to interpret the recently collected data [2].oai:cds.cern.ch:28009302019 |
| spellingShingle | Physics in General Zurlo, Nicola Aghion, Stefano Amsler, Claude Antonello, Massimiliano Belov, Alexandre Bonomi, Germano Brusa, Roberto S Caccia, Massimo Camper, Antoine Caravita, Ruggero Castelli, Fabrizio Cerchiari, Giovanni Comparat, Daniel Consolati, Giovanni Demetrio, Andrea 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, Alex Holmestad, Helga Kellerbauer, Alban Khalidova, Olga Krasnický, Daniel Lagomarsino, Vittorio Lansonneur, Pierre Lebrun, Patrice Malbrunot, Chloe Mariazzi, Sebastiano Marton, Johann Matveev, Victor A Müller, Simon R Nebbia, Giancarlo Nedelec, Patrick Oberthaler, Marcus Pagano, Davide Penasa, Luca Petracek, Vojtech Prelz, Francesco Prevedelli, Marco Rienaecker, Benjamin Robert, Jacques Røhne, Ole M Rotondi, Alberto Sacerdoti, Michele Sandaker, Heidi Santoro, Romualdo Smestad, Lillian Sorrentino, Fiodor Testera, Gemma Tietje, Ingmari C Vujanovic, Milena Widmann, Eberhard Yzombard, Pauline Zimmer, Christian Zmeskal, Johann Monte-Carlo simulation of positronium laser excitation and anti-hydrogen formation via charge exchange |
| title | Monte-Carlo simulation of positronium laser excitation and anti-hydrogen formation via charge exchange |
| title_full | Monte-Carlo simulation of positronium laser excitation and anti-hydrogen formation via charge exchange |
| title_fullStr | Monte-Carlo simulation of positronium laser excitation and anti-hydrogen formation via charge exchange |
| title_full_unstemmed | Monte-Carlo simulation of positronium laser excitation and anti-hydrogen formation via charge exchange |
| title_short | Monte-Carlo simulation of positronium laser excitation and anti-hydrogen formation via charge exchange |
| title_sort | monte-carlo simulation of positronium laser excitation and anti-hydrogen formation via charge exchange |
| topic | Physics in General |
| url | https://dx.doi.org/10.1007/s10751-019-1553-3 http://cds.cern.ch/record/2800930 |
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