Cargando…
Developments for pulsed antihydrogen production towards direct gravitational measurement on antimatter
A main scientific goal of the experiment is the direct measurement of the Earth’s local gravitational acceleration g on antihydrogen. The Weak Equivalence Principle is a foundation of General Relativity. It has been extensively tested with ordinary matter but very little is known about the gravitati...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Lenguaje: | eng |
| Publicado: |
2020
|
| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1088/1402-4896/abbaa1 http://cds.cern.ch/record/2749273 |
| _version_ | 1780969112196874240 |
|---|---|
| author | Fanì, M Antonello, M Belov, A Bonomi, G Brusa, R S Caccia, M Camper, A Caravita, R Castelli, F Comparat, D Cheinet, P Consolati, G Demetrio, A Di Noto, L Doser, M Ferragut, R Fesel, J Gerber, S Giammarchi, M Gligorova, A Glöggler, L T Guatieri, F Haider, S Hinterberger, A Kellerbauer, A Khalidova, O Krasnicky`, D Lagomarsino, V Malbrunot, C Nowak, L Mariazzi, S Matveev, V Müller, S R Nebbia, G Nedelec, P Oberthaler, M Oswald, E Pagano, D Penasa, L Petracek, V Povolo, L Prelz, F Prevedelli, M Rienäcker, B Røhne, O M Rotondi, A Sandaker, H Santoro, R Testera, G Tietje, I C Toso, V Wolz, T Zimmer, C Zurlo, N |
| author_facet | Fanì, M Antonello, M Belov, A Bonomi, G Brusa, R S Caccia, M Camper, A Caravita, R Castelli, F Comparat, D Cheinet, P Consolati, G Demetrio, A Di Noto, L Doser, M Ferragut, R Fesel, J Gerber, S Giammarchi, M Gligorova, A Glöggler, L T Guatieri, F Haider, S Hinterberger, A Kellerbauer, A Khalidova, O Krasnicky`, D Lagomarsino, V Malbrunot, C Nowak, L Mariazzi, S Matveev, V Müller, S R Nebbia, G Nedelec, P Oberthaler, M Oswald, E Pagano, D Penasa, L Petracek, V Povolo, L Prelz, F Prevedelli, M Rienäcker, B Røhne, O M Rotondi, A Sandaker, H Santoro, R Testera, G Tietje, I C Toso, V Wolz, T Zimmer, C Zurlo, N |
| author_sort | Fanì, M |
| collection | CERN |
| description | A main scientific goal of the experiment is the direct measurement of the Earth’s local gravitational acceleration g on antihydrogen. The Weak Equivalence Principle is a foundation of General Relativity. It has been extensively tested with ordinary matter but very little is known about the gravitational interaction between matter and antimatter. Antihydrogen is produced in via resonant charge-exchange reaction between cold Rydberg-excited positronium and cooled down antiprotons. The achievements for the development of a pulsed cold antihydrogen source are presented. Large number of antiprotons, necessary for a significant production rate of antihydrogen, are captured, accumulated, compressed and cooled over an extended period of time. Positronium (Ps) is formed through e$^{+}$-Ps conversion in a silica porous target at 10 K temperature in a reflection geometry inside the main apparatus. The so-formed Ps cloud is then laser-excited to Rydberg levels, for the first time in a 1 T magnetic field. Consequently, a detailed characterization of the Ps source for antihydrogen production in magnetic field needed to be performed. Several detection techniques are extensively used to monitor antiproton and positron manipulations in the formation process of antihydrogen inside the main apparatus. Positronium detection techniques underwent extensive improvements in sensitivity during the last antiproton run. At the same time, major efforts to improve integrate and commission the detectors sensitive to antihydrogen production took place. |
| id | oai-inspirehep.net-1822056 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2020 |
| record_format | invenio |
| spelling | oai-inspirehep.net-18220562021-02-09T22:54:50Zdoi:10.1088/1402-4896/abbaa1http://cds.cern.ch/record/2749273engFanì, MAntonello, MBelov, ABonomi, GBrusa, R SCaccia, MCamper, ACaravita, RCastelli, FComparat, DCheinet, PConsolati, GDemetrio, ADi Noto, LDoser, MFerragut, RFesel, JGerber, SGiammarchi, MGligorova, AGlöggler, L TGuatieri, FHaider, SHinterberger, AKellerbauer, AKhalidova, OKrasnicky`, DLagomarsino, VMalbrunot, CNowak, LMariazzi, SMatveev, VMüller, S RNebbia, GNedelec, POberthaler, MOswald, EPagano, DPenasa, LPetracek, VPovolo, LPrelz, FPrevedelli, MRienäcker, BRøhne, O MRotondi, ASandaker, HSantoro, RTestera, GTietje, I CToso, VWolz, TZimmer, CZurlo, NDevelopments for pulsed antihydrogen production towards direct gravitational measurement on antimatterParticle Physics - ExperimentA main scientific goal of the experiment is the direct measurement of the Earth’s local gravitational acceleration g on antihydrogen. The Weak Equivalence Principle is a foundation of General Relativity. It has been extensively tested with ordinary matter but very little is known about the gravitational interaction between matter and antimatter. Antihydrogen is produced in via resonant charge-exchange reaction between cold Rydberg-excited positronium and cooled down antiprotons. The achievements for the development of a pulsed cold antihydrogen source are presented. Large number of antiprotons, necessary for a significant production rate of antihydrogen, are captured, accumulated, compressed and cooled over an extended period of time. Positronium (Ps) is formed through e$^{+}$-Ps conversion in a silica porous target at 10 K temperature in a reflection geometry inside the main apparatus. The so-formed Ps cloud is then laser-excited to Rydberg levels, for the first time in a 1 T magnetic field. Consequently, a detailed characterization of the Ps source for antihydrogen production in magnetic field needed to be performed. Several detection techniques are extensively used to monitor antiproton and positron manipulations in the formation process of antihydrogen inside the main apparatus. Positronium detection techniques underwent extensive improvements in sensitivity during the last antiproton run. At the same time, major efforts to improve integrate and commission the detectors sensitive to antihydrogen production took place.oai:inspirehep.net:18220562020 |
| spellingShingle | Particle Physics - Experiment Fanì, M Antonello, M Belov, A Bonomi, G Brusa, R S Caccia, M Camper, A Caravita, R Castelli, F Comparat, D Cheinet, P Consolati, G Demetrio, A Di Noto, L Doser, M Ferragut, R Fesel, J Gerber, S Giammarchi, M Gligorova, A Glöggler, L T Guatieri, F Haider, S Hinterberger, A Kellerbauer, A Khalidova, O Krasnicky`, D Lagomarsino, V Malbrunot, C Nowak, L Mariazzi, S Matveev, V Müller, S R Nebbia, G Nedelec, P Oberthaler, M Oswald, E Pagano, D Penasa, L Petracek, V Povolo, L Prelz, F Prevedelli, M Rienäcker, B Røhne, O M Rotondi, A Sandaker, H Santoro, R Testera, G Tietje, I C Toso, V Wolz, T Zimmer, C Zurlo, N Developments for pulsed antihydrogen production towards direct gravitational measurement on antimatter |
| title | Developments for pulsed antihydrogen production towards direct gravitational measurement on antimatter |
| title_full | Developments for pulsed antihydrogen production towards direct gravitational measurement on antimatter |
| title_fullStr | Developments for pulsed antihydrogen production towards direct gravitational measurement on antimatter |
| title_full_unstemmed | Developments for pulsed antihydrogen production towards direct gravitational measurement on antimatter |
| title_short | Developments for pulsed antihydrogen production towards direct gravitational measurement on antimatter |
| title_sort | developments for pulsed antihydrogen production towards direct gravitational measurement on antimatter |
| topic | Particle Physics - Experiment |
| url | https://dx.doi.org/10.1088/1402-4896/abbaa1 http://cds.cern.ch/record/2749273 |
| work_keys_str_mv | AT fanim developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT antonellom developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT belova developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT bonomig developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT brusars developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT cacciam developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT campera developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT caravitar developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT castellif developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT comparatd developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT cheinetp developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT consolatig developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT demetrioa developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT dinotol developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT doserm developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT ferragutr developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT feselj developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT gerbers developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT giammarchim developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT gligorovaa developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT glogglerlt developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT guatierif developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT haiders developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT hinterbergera developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT kellerbauera developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT khalidovao developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT krasnickyd developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT lagomarsinov developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT malbrunotc developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT nowakl developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT mariazzis developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT matveevv developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT mullersr developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT nebbiag developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT nedelecp developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT oberthalerm developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT oswalde developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT paganod developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT penasal developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT petracekv developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT povolol developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT prelzf developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT prevedellim developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT rienackerb developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT røhneom developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT rotondia developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT sandakerh developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT santoror developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT testerag developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT tietjeic developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT tosov developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT wolzt developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT zimmerc developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter AT zurlon developmentsforpulsedantihydrogenproductiontowardsdirectgravitationalmeasurementonantimatter |