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43 results on '"Jorgensen, L. V."'

1. Annihilation of low energy antiprotons in silicon

Author

Aghion, S., Ahlén, O., Belov, A. S., Bonomi, G., Bräunig, P., Bremer, J., Brusa, R. S., Burghart, G., Cabaret, L., Caccia, M., Canali, C., Caravita, R., Castelli, F., Cerchiari, G., Cialdi, S., Comparat, D., Consolati, G., Derking, J. H., Di Domizio, S., Di Noto, L., Doser, M., Dudarev, A., Ferragut, R., Fontana, A., Genova, P., Giammarchi, M., Gligorova, A., Gninenko, S. N., Haider, S., Harasimowicz, J., Huse, T., Jordan, E., Jørgensen, L. V., Kaltenbacher, T., Kellerbauer, A., Knecht, A., Krasnický, D., Lagomarsino, V., Magnani, A., Mariazzi, S., Matveev, V. A., Moia, F., Nebbia, G., Nédélec, P., Pacifico, N., Petrácek, V., Prelz, F., Prevedelli, M., Regenfus, C., Riccardi, C., Røhne, O., Rotondi, A., Sandaker, H., Sosa, A., Vasquez, M. A. Subieta, Špacek, M., Testera, G., Welsch, C. P., and Zavatarelli, S.

Subjects
Physics - Instrumentation and Detectors
Abstract

The goal of the AE$\mathrm{\bar{g}}$IS experiment at the Antiproton Decelerator (AD) at CERN, is to measure directly the Earth's gravitational acceleration on antimatter. To achieve this goal, the AE$\mathrm{\bar{g}}$IS collaboration will produce a pulsed, cold (100 mK) antihydrogen beam with a velocity of a few 100 m/s and measure the magnitude of the vertical deflection of the beam from a straight path. The final position of the falling antihydrogen will be detected by a position sensitive detector. This detector will consist of an active silicon part, where the annihilations take place, followed by an emulsion part. Together, they allow to achieve 1$%$ precision on the measurement of $\bar{g}$ with about 600 reconstructed and time tagged annihilations. We present here, to the best of our knowledge, the first direct measurement of antiproton annihilation in a segmented silicon sensor, the first step towards designing a position sensitive silicon detector for the AE$\mathrm{\bar{g}}$IS experiment. We also present a first comparison with Monte Carlo simulations (GEANT4) for antiproton energies below 5 MeV, Comment: 21 pages in total, 29 figures, 3 tables

Published
2013

2. Prospects for measuring the gravitational free-fall of antihydrogen with emulsion detectors

Author

AEgIS Collaboration, Aghion, S., Ahlén, O., Amsler, C., Ariga, A., Ariga, T., Belov, A. S., Bonomi, G., Bräunig, P., Bremer, J., Brusa, R. S., Cabaret, L., Canali, C., Caravita, R., Castelli, F., Cerchiari, G., Cialdi, S., Comparat, D., Consolati, G., Derking, J. H., Di Domizio, S., Di Noto, L., Doser, M., Dudarev, A., Ereditato, A., Ferragut, R., Fontana, A., Genova, P., Giammarchi, M., Gligorova, A., Gninenko, S. N., Haider, S., Harasimovicz, J., Hogan, S. D., Huse, T., Jordan, E., Jørgensen, L. V., Kaltenbacher, T., Kawada, J., Kellerbauer, A., Kimura, M., Knecht, A., Krasnický, D., Lagomarsino, V., Magnani, A., Mariazzi, S., Matveev, V. A., Moia, F., Nebbia, G., Nédélec, P., Oberthaler, M. K., Pacifico, N., Petrácek, V., Pistillo, C., Prelz, F., Prevedelli, M., Regenfus, C., Riccardi, C., Røhne, O., Rotondi, A., Sandaker, H., Scampoli, P., Sosa, A., Storey, J., Vasquez, M. A. Subieta, Spacek, M., Testera, G., Trezzi, D., Vaccarone, R., Welsch, C. P., and Zavatarelli, S.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

The main goal of the AEgIS experiment at CERN is to test the weak equivalence principle for antimatter. AEgIS will measure the free-fall of an antihydrogen beam traversing a moir\'e deflectometer. The goal is to determine the gravitational acceleration g for antihydrogen with an initial relative accuracy of 1% by using an emulsion detector combined with a silicon micro-strip detector to measure the time of flight. Nuclear emulsions can measure the annihilation vertex of antihydrogen atoms with a precision of about 1 - 2 microns r.m.s. We present here results for emulsion detectors operated in vacuum using low energy antiprotons from the CERN antiproton decelerator. We compare with Monte Carlo simulations, and discuss the impact on the AEgIS project., Comment: 20 pages, 16 figures, 3 tables

Published
2013
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3. Antihydrogen formation dynamics in a multipolar neutral anti-atom trap

Author

Andresen, G. B., Bertsche, W., Bowe, P. D., Bray, C., Butler, E., Cesar, C. L., Chapman, S., Charlton, M., Fajans, J., Fujiwara, M. C., Gill, D. R., Hangst, J. S., Hardy, W. N., Hayano, R. S., Hayden, M. E., Humphries, A. J., Hydomako, R., Jørgensen, L. V., Kerrigan, S. J., Kurchaninov, L., Lambo, R., Madsen, N., Nolan, P., Olchanski, K., Olin, A., Povilus, A., Pusa, P., Robicheaux, F., Sarid, E., Nasr, S. Seif El, Silveira, D. M., Storey, J. W., Thompson, R. I., van der Werf, D. P., Wurtele, J. S., and Yamazaki, Y.

Subjects
High Energy Physics - Experiment, Physics - Atomic Physics, Physics - Plasma Physics
Abstract

Antihydrogen production in a neutral atom trap formed by an octupole-based magnetic field minimum is demonstrated using field-ionization of weakly bound anti-atoms. Using our unique annihilation imaging detector, we correlate antihydrogen detection by imaging and by field-ionization for the first time. We further establish how field-ionization causes radial redistribution of the antiprotons during antihydrogen formation and use this effect for the first simultaneous measurements of strongly and weakly bound antihydrogen atoms. Distinguishing between these provides critical information needed in the process of optimizing for trappable antihydrogen. These observations are of crucial importance to the ultimate goal of performing CPT tests involving antihydrogen, which likely depends upon trapping the anti-atom.

Published
2010
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4. Production of antihydrogen at reduced magnetic field for anti-atom trapping

Author

Andresen, G B, Bertsche, W, Boston, A, Bowe, P D, Cesar, C L, Chapman, S, Charlton, M, Chartier, M, Deutsch, A, Fajans, J, Fujiwara, M C, Funakoshi, R, Gill, D R, Gomberoff, K, Hangst, J S, Hayano, R S, Hydomako, R, Jenkins, M J, Jorgensen, L V, Kurchaninov, L, Madsen, N, Nolan, P, Olchanski, K, Olin, A, Page, R D, Povilus, A, Robicheaux, F, Sarid, E, Silveira, D M, Storey, J W, Thompson, R I, van derWerf, D P, Wurtele, J S, and Yamazaki, Y

Subjects
Nuclear Experiment
Abstract

We have demonstrated production of antihydrogen in a 1$,$T solenoidal magnetic field. This field strength is significantly smaller than that used in the first generation experiments ATHENA (3$,$T) and ATRAP (5$,$T). The motivation for using a smaller magnetic field is to facilitate trapping of antihydrogen atoms in a neutral atom trap surrounding the production region. We report the results of measurements with the ALPHA (Antihydrogen Laser PHysics Apparatus) device, which can capture and cool antiprotons at 3$,$T, and then mix the antiprotons with positrons at 1$,$T. We infer antihydrogen production from the time structure of antiproton annihilations during mixing, using mixing with heated positrons as the null experiment, as demonstrated in ATHENA. Implications for antihydrogen trapping are discussed.

Published
2008
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5. A novel antiproton radial diagnostic based on octupole induced ballistic loss

Author

Andresen, G. B., Bertsche, W., Bowe, P. D., Bray, C. C., Butler, E., Cesar, C. L., Chapman, S., Charlton, M., Fajans, J., Fujiwara, M. C., Funakoshi, R., Gill, D. R., Hangst, J. S., Hardy, W. N., Hayano, R. S., Hayden, M. E., Humphries, A. J., Hydomako, R., Jenkins, M. J., Jorgensen, L. V., Kurchaninov, L., Lambo, R., Madsen, N., Nolan, P., Olchanski, K., Olin, A., Page, R. D., Povilus, A., Pusa, P., Robicheaux, F., Sarid, E., Nasr, S. Seif El, Silveira, D. M., Storey, J. W., Thompson, R. I., van der Werf, D. P., Wurtele, J. S., and Yamazaki, Y.

Subjects
Physics - Atomic Physics, Nuclear Experiment
Abstract

We report results from a novel diagnostic that probes the outer radial profile of trapped antiproton clouds. The diagnostic allows us to determine the profile by monitoring the time-history of antiproton losses that occur as an octupole field in the antiproton confinement region is increased. We show several examples of how this diagnostic helps us to understand the radial dynamics of antiprotons in normal and nested Penning-Malmberg traps. Better understanding of these dynamics may aid current attempts to trap antihydrogen atoms.

Published
2008
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6. Compression of Antiproton Clouds for Antihydrogen Trapping

Author

Andresen, G. B., Bertsche, W., Bowe, P. D., Bray, C. C., Butler, E., Cesar, C. L., Chapman, S., Charlton, M., Fajans, J., Fujiwara, M. C., Funakoshi, R., Gill, D. R., Hangst, J. S., Hardy, W. N., Hayano, R. S., Hayden, M. E., Hydomako, R., Jenkins, M. J., Jorgensen, L. V., Kurchaninov, L., Lambo, R., Madsen, N., Nolan, P., Olchanski, K., Olin, A., Povilus, A., Pusa, P., Robicheaux, F., Sarid, E., Nasr, S. Seif El, Silveira, D. M., Storey, J. W., Thompson, R. I., van der Werf, D. P., Wurtele, J. S., and Yamazaki, Y.

Subjects
Nuclear Experiment
Abstract

Control of the radial profile of trapped antiproton clouds is critical to trapping antihydrogen. We report the first detailed measurements of the radial manipulation of antiproton clouds, including areal density compressions by factors as large as ten, by manipulating spatially overlapped electron plasmas. We show detailed measurements of the near-axis antiproton radial profile and its relation to that of the electron plasma.

Published
2008
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7. Particle Physics Aspects of Antihydrogen Studies with ALPHA at CERN

Author

ALPHA Collaboration, Fujiwara, M. C., Andresen, G. B., Bertsche, W., Bowe, P. D., Bray, C. C., Butler, E., Cesar, C. L., Chapman, S., Charlton, M., Fajans, J., Funakoshi, R., Gill, D. R., Hangst, J. S., Hardy, W. N., Hayano, R. S., Hayden, M. E., Humphries, A. J., Hydomako, R., Jenkins, M. J., Jorgensen, L. V., Kurchaninov, L., Lai, W., Lambo, R., Madsen, N., Nolan, P., Olchanski, K., Olin, A., Povilus, A., Pusa, P., Robicheaux, F., Sarid, E., Nasr, S. Seif El, Silveira, D. M., Storey, J. W., Thompson, R. I., van der Werf, D. P., Wasilenko, L., Wurtele, J. S., and Yamazaki, Y.

Subjects
High Energy Physics - Experiment, High Energy Physics - Phenomenology, Nuclear Experiment, Physics - Atomic Physics
Abstract

We discuss aspects of antihydrogen studies, that relate to particle physics ideas and techniques, within the context of the ALPHA experiment at CERN's Antiproton Decelerator facility. We review the fundamental physics motivations for antihydrogen studies, and their potential physics reach. We argue that initial spectroscopy measurements, once antihydrogen is trapped, could provide competitive tests of CPT, possibly probing physics at the Planck Scale. We discuss some of the particle detection techniques used in ALPHA. Preliminary results from commissioning studies of a partial system of the ALPHA Si vertex detector are presented, the results of which highlight the power of annihilation vertex detection capability in antihydrogen studies., Comment: Invited talk at Pbar08 - Workshop on Cold Antimatter Plasmas and Application to Fundamental Physics, Okinawa, Japan, 2008. 14 pages, 8 figures

Published
2008
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8. Production of Slow Protonium in Vacuum

Author

Zurlo, N., Amoretti, M., Amsler, C., Bonomi, G., Carraro, C., Cesar, C. L., Charlton, M., Doser, M., Fontana, A., Funakoshi, R., Genova, P., Hayano, R. S., Jorgensen, L. V., Kellerbauer, A., Lagomarsino, V., Landua, R., Rizzini, E. Lodi, Macri', M., Madsen, N., Manuzio, G., Mitchard, D., Montagna, P., Posada, L. G., Pruys, H., Regenfus, C., Rotondi, A., Testera, G., Van der Werf, D. P., Variola, A., Venturelli, L., and Yamazaki, Y.

Subjects
High Energy Physics - Experiment
Abstract

We describe how protonium, the quasi-stable antiproton-proton bound system, has been synthesized following the interaction of antiprotons with the molecular ion H$_2^+$ in a nested Penning trap environment. From a careful analysis of the spatial distributions of antiproton annihilation events in the ATHENA experiment, evidence is presented for protonium production with sub-eV kinetic energies in states around $n$ = 70, with low angular momenta. This work provides a new 2-body system for study using laser spectroscopic techniques., Comment: 9 pages with 5 figures and 1 table. Proceedings of the 4th International Conference on Trapped Charged Particles and Fundamental Physics (TCP 06), published in Hyperfine Interactions

Published
2008
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9. Evidence For The Production Of Slow Antiprotonic Hydrogen In Vacuum

Author

Zurlo, N., Amoretti, M., Amsler, C., Bonomi, G., Carraro, C., Cesar, C. L., Charlton, M., Doser, M., Fontana, A., Funakoshi, R., Genova, P., Hayano, R. S., Jorgensen, L. V., Kellerbauer, A., Lagomarsino, V., Landua, R., Rizzini, E. Lodi, Macrì, M., Madsen, N., Manuzio, G., Mitchard, D., Montagna, P., Posada, L. G., Pruys, H., Regenfus, C., Rotondi, A., Testera, G., Van der Werf, D. P., Variola, A., Venturelli, L., and Yamazaki, Y.

Subjects
High Energy Physics - Experiment
Abstract

We present evidence showing how antiprotonic hydrogen, the quasistable antiproton-proton (pbar-p) bound system, has been synthesized following the interaction of antiprotons with the hydrogen molecular ion (H2+) in a nested Penning trap environment. From a careful analysis of the spatial distributions of antiproton annihilation events, evidence is presented for antiprotonic hydrogen production with sub-eV kinetic energies in states around n=70, and with low angular momenta. The slow antiprotonic hydrogen may be studied using laser spectroscopic techniques., Comment: 5 pages with 4 figures. Published as Phys. Rev. Letters 97, 153401 (2006), in slightly different form

Published
2007
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10. Towards Antihydrogen Confinement with the ALPHA Antihydrogen Trap

Author

Fujiwara, M. C., Andresen, G., Bertsche, W., Boston, A., Bowe, P. D., Cesar, C. L., Chapman, S., Charlton, M., Chartier, M., Deutsch, A., Fajans, J., Funakoshi, R., Gill, D. R., Gomberoff, K., Hangst, J. S., Hardy, W. N., Hayano, R. S., Hydomako, R., Jenkins, M. J., Jorgensen, L. V., Kurchaninov, L., Madsen, N., Nolan, P., Olchanski, K., Olin, A., Page, R. D., Povilus, A., Robicheaux, F., Sarid, E., Silveira, D. M., Storey, J. W., Thompson, R. I., van der Werf, D. P., Wurtele, J. S., and Yamazaki, Y.

Subjects
Nuclear Experiment, High Energy Physics - Experiment, Physics - Atomic Physics, Physics - Plasma Physics
Abstract

ALPHA is an international project that has recently begun experimentation at CERN's Antiproton Decelerator (AD) facility. The primary goal of ALPHA is stable trapping of cold antihydrogen atoms with the ultimate goal of precise spectroscopic comparisons with hydrogen. We discuss the status of the ALPHA project and the prospects for antihydrogen trapping., Comment: Invited talk at International Conference on Trapped Charged Particles and Fundamental Physics: TCP06, Parksville, BC, Canada, September 2006. To be published in Hyperfine Interactions

Published
2007
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11. Cold-Antimatter Physics

Author

ATHENA Collaboration, Amoretti, M., Amsler, C., Bonomi, G., Bowe, P. D., Canali, C., Carraro, C., Cesar, C. L., Charlton, M., Doser, M., Fontana, A., Fujiwara, M. C., Funakoshi, R., Genova, P., Hangst, J. S., Hayano, R. S., Johnson, I., Jorgensen, L. V., Kellerbauer, A., Lagomarsino, V., Landua, R., Rizzini, E. Lodi, Macri, M., Madsen, N., Manuzio, G., Mitchard, D., Montagna, P., Pruys, H., Regenfus, C., Rotondi, A., Testera, G., Variola, A., Venturelli, L., van der Werf, D. P., Yamazaki, Y., and Zurlo, N.

Subjects
High Energy Physics - Experiment
Abstract

The CPT theorem and the Weak Equivalence Principle are foundational principles on which the standard description of the fundamental interactions is based. The validity of such basic principles should be tested using the largest possible sample of physical systems. Cold neutral antimatter (low-energy antihydrogen atoms) could be a tool for testing the CPT symmetry with high precision and for a direct measurement of the gravitational acceleration of antimatter. After several years of experimental efforts, the production of low-energy antihydrogen through the recombination of antiprotons and positrons is a well-established experimental reality. An overview of the ATHENA experiment at CERN will be given and the main experimental results on antihydrogen formation will be reviewed., Comment: Proceedings of the XLIII International Meeting on Nuclear Physics, Bormio (Italy), March 13-20 (2005). 10 pages, 4 figures, 1 table

Published
2005

12. ATHENA -- First Production of Cold Antihydrogen and Beyond

Author

ATHENA Collaboration, Kellerbauer, A., Amoretti, M., Amsler, C., Bonomi, G., Bowe, P. D., Canali, C., Carraro, C., Cesar, C. L., Charlton, M., Doser, M., Fontana, A., Fujiwara, M. C., Funakoshi, R., Genova, P., Hangst, J. S., Hayano, R. S., Johnson, I., Jørgensen, L. V., Lagomarsino, V., Landua, R., Rizzini, E. Lodi, Macrí, M., Madsen, N., Manuzio, G., Mitchard, D., Montagna, P., Pruys, H., Regenfus, C., Rotondi, A., Testera, G., Variola, A., Venturelli, L., van der Werf, D. P., Yamazaki, Y., and Zurlo, N.

Subjects
High Energy Physics - Experiment
Abstract

Atomic systems of antiparticles are the laboratories of choice for tests of CPT symmetry with antimatter. The ATHENA experiment was the first to report the production of copious amounts of cold antihydrogen in 2002. This article reviews some of the insights that have since been gained concerning the antihydrogen production process as well as the external and internal properties of the produced anti-atoms. Furthermore, the implications of those results on future prospects of symmetry tests with antimatter are discussed., Comment: Proc. of the Third Meeting on CPT and Lorentz Symmetry, Bloomington (Indiana), USA, August 2004, edited by V. A. Kostelecky (World Scientific, Singapore). 10 pages, 5 figures, 1 table. Author affiliations corr

Published
2004

13. Production of Cold Antihydrogen with ATHENA for Fundamental Studies

Author

ATHENA Collaboration, Kellerbauer, A., Amoretti, M., Amsler, C., Bonomi, G., Bowe, P. D., Canali, C., Carraro, C., Cesar, C. L., Charlton, M., Doser, M., Fontana, A., Fujiwara, M. C., Funakoshi, R., Genova, P., Hangst, J. S., Hayano, R. S., Johnson, I., Jørgensen, L. V., Lagomarsino, V., Landua, R., Rizzini, E. Lodi, Macrí, M., Madsen, N., Manuzio, G., Mitchard, D., Montagna, P., Pruys, H., Regenfus, C., Rotondi, A., Testera, G., Variola, A., Venturelli, L., van der Werf, D. P., Yamazaki, Y., and Zurlo, N.

Subjects
High Energy Physics - Experiment
Abstract

Since the beginning of operations of the CERN Antiproton Decelerator in July 2000, the successful deceleration, storage and manipulation of antiprotons has led to remarkable progress in the production of antimatter. The ATHENA Collaboration were the first to create and detect cold antihydrogen in 2002, and we can today produce large enough amounts of antiatoms to study their properties as well as the parameters that govern their production rate., Comment: Proceedings of the XXXIXth Rencontres de Moriond, 2004, Electroweak Interactions and Unified Theories, Ed. J. Tran Thanh Van. 8 pages, 7 figures, 1 table

Published
2004

14. Three Dimensional Annihilation Imaging of Antiprotons in a Penning Trap

Author

Fujiwara, M. C., Amoretti, M., Bonomi, G., Bouchta, A., Bowe, P. D., Carraro, C., Cesar, C. L., Charlton, M., Doser, M., Filippini, V., Fontana, A., Funakoshi, R., Genova, P., Hangst, J. S., Hayano, R. S., Jorgensen, L. V., Lagomarsino, V., Landuad, R., Lindelof, D., Rizzini, E. Lodi, Macri, M., Madsen, N., Marchesotti, M., Montagna, P., Pruys, H., Regenfus, C., Rielder, P., Rotondi, A., Testera, G., Variola, A., and van der Werf, D. P.

Subjects
Physics - Plasma Physics, High Energy Physics - Experiment, Nuclear Experiment, Physics - General Physics
Abstract

We demonstrate three-dimensional annihilation imaging of antiprotons trapped in a Penning trap. Exploiting unusual feature of antiparticles, we investigate a previously unexplored regime in particle transport; the proximity of the trap wall. Particle loss on the wall, the final step of radial transport, is observed to be highly non-uniform, both radially and azimuthally. These observations have considerable implications for the production and detection of antihydrogen atoms., Comment: Invited Talk at NNP03, Workshop on Non-Neutral Plasmas, 2003

Published
2004
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15. The First Cold Antihydrogen

Author

Fujiwara, M. C., Amoretti, M., Amsler, C., Bonomi, G., Bouchta, A., Bowe, P. D., Carraro, C., Cesar, C. L., Charlton, M., Doser, M., Filippini, V., Fontana, A., Funakoshi, R., Genova, P., Hangst, J. S., Hayano, R. S., Jorgensen, L. V., Lagomarsino, V., Landua, R., Lindelof, D., Rizzini, E. Lodi, Macri, M., Madsen, N., Marchesotti, M., Montagna, P., Pruys, H., Regenfus, C., Rielder, P., Rotondi, A., Testera, G., Variola, A., and van der Werf, D. P.

Subjects
High Energy Physics - Experiment, Nuclear Experiment
Abstract

Antihydrogen, the atomic bound state of an antiproton and a positron, was produced at low energy for the first time by the ATHENA experiment, marking an important first step for precision studies of atomic antimatter. This paper describes the first production and some subsequent developments., Comment: Invitated Talk at COOL03, International Workshop on Beam Cooling and Related Topics, to be published in NIM A

Published
2004
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16. Positron plasma diagnostics and temperature control for antihydrogen production

Author

ATHENA Collaboration, Amoretti, M., Amsler, C., Bonomi, G., Bouchta, A., Bowe, P. D., Carraro, C., Cesar, C. L., Charlton, M., Doser, M., Filippini, V., Fontana, A., Fujiwara, M. C., Funakoshi, R., Genova, P., Hangst, J. S., Hayano, R. S., Jorgensen, L. V., Lagomarsino, V., Landua, R., Lindelof, D., Rizzini, E. Lodi, Macri', M., Madsen, N., Manuzio, G., Montagna, P., Pruys, H., Regenfus, C., Rotondi, A., Testera, G., Variola, A., and van der Werf, D. P.

Subjects
Physics - Plasma Physics, High Energy Physics - Experiment, Nuclear Experiment
Abstract

Production of antihydrogen atoms by mixing antiprotons with a cold, confined, positron plasma depends critically on parameters such as the plasma density and temperature. We discuss non-destructive measurements, based on a novel, real-time analysis of excited, low-order plasma modes, that provide comprehensive characterization of the positron plasma in the ATHENA antihydrogen apparatus. The plasma length, radius, density, and total particle number are obtained. Measurement and control of plasma temperature variations, and the application to antihydrogen production experiments are discussed., Comment: 5 pages, 4 figures, to be published in Phys. Rev. Lett

Published
2003
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17. First Production and Detection of Cold Antihydrogen Atoms

Author

Fujiwara, M. C., Amoretti, M., Amsler, C., Bonomi, G., Bouchta, A., Bowe, P., Carraro, C., Cesar, C. L., Charlton, M., Doser, M., Filippini, V., Fontana, A., Funakoshi, R., Genova, P., Hangst, J. S., Hayano, R. S., Jorgensen, L. V., Lagomarsino, V., Landua, R., Lindelof, D., Rizzini, E. Lodi, Marchesotti, M., Macri, M., Madsen, N., Montagna, P., Pruys, H., Regenfus, C., Rielder, P., Rotondi, A., Testera, G., Variola, A., and van der Werf, D. P.

Subjects
High Energy Physics - Experiment, Nuclear Experiment
Abstract

The ATHENA experiment recently produced the first atoms of cold antihydrogen. This paper gives a brief review of how this was achieved., Comment: Invited talk at Int. Conf. on Low Energy Antiprotons 2003 (LEAP03), to be published in NIM B

Published
2003
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18. The AEGIS experiment at CERN : Measuring the free fall of antihydrogen

Author

The AEGIS Collaboration, Kellerbauer, A., Allkofer, Y., Amsler, C., Belov, A. S., Bonomi, G., Bräunig, P., Bremer, J., Brusa, R. S., Burghart, G., Cabaret, L., Canali, C., Castelli, F., Chlouba, K., Cialdi, S., Comparat, D., Consolati, G., Dassa, L., Di Noto, L., Donzella, A., Doser, M., Dudarev, A., Eisel, T., Ferragut, R., Ferrari, G., Fontana, A., Genova, P., Giammarchi, M., Gligorova, A., Gninenko, S. N., Haider, S., Hansen, J. P., Haug, F., Hogan, S. D., Jørgensen, L. V., Kaltenbacher, T., Krasnický, D., Lagomarsino, V., Mariazzi, S., Matveev, V. A., Merkt, F., Moia, F., Nebbia, G., Nédélec, P., Niinikoski, T., Oberthaler, M. K., Perini, D., Petráček, V., Prelz, F., Prevedelli, M., Regenfus, C., Riccardi, C., Rochet, J., Røhne, O., Rotondi, A., Sacerdoti, M., Sandaker, H., Špaček, M., Storey, J., Testera, G., Tokareva, A., Trezzi, D., Vaccarone, R., Villa, F., Warring, U., Zavatarelli, S., Zenoni, A., Bühler, Paul, editor, Hartmann, Olaf, editor, Marton, Johann, editor, Suzuki, Ken, editor, Widmann, Eberhard, editor, and Zmeskal, Johann, editor

Published
2012
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19. Production of slow protonium in vacuum

Author

Zurlo, N., Rizzini, E. Lodi, Venturelli, L., Amoretti, M., Carraro, C., Lagomarsino, V., Macrì, M., Manuzio, G., Testera, G., Variola, A., Amsler, C., Pruys, H., Regenfus, C., Bonomi, G., Fontana, A., Genova, P., Montagna, P., Rotondi, A., Cesar, C. L., Charlton, M., Mitchard, D., Jørgensen, L. V., Madsen, N., Van der Werf, D. P., Doser, M., Kellerbauer, A., Landua, R., Funakoshi, R., Hayano, R. S., Posada, L. G., Yamazaki, Y., Dilling, J., editor, Comyn, M., editor, Thompson, J., editor, and Gwinner, G., editor

Published
2007
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20. PRODUCTION AND STUDY OF ANTIHYDROGEN IN THE ATHENA EXPERIMENT

Author

Genova, P., Amoretti, M., Amsler, C., Bonomi, G., Bowe, P. D., Canali, C., Carraro, C., Cesar, C. L., Charlton, M., Doser, M., Fontana, A., Fujiwara, M. C., Funakoshi, R., Hangst, J. S., Hayano, R. S., Jørgensen, L. V., Kellerbauer, A., Lagomarsino, V., Landua, R., Lodi Rizzinia, E., Macrí, M., Madsen, N., Manuzio, G., Mitchard, D., Montagna, P., Pruys, H., Regenfus, C., Rotondi, A., Testera, G., Variola, A., Venturelli, L., Yamazaki, Y., van der Werf, D. P., Zurlo, N., Čechák, Tomas, editor, Jenkovszky, László, editor, and Karpenko, Iurii, editor

Published
2006
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21. A New Electron Cooler for the CERN Antiproton Decelerator (AD)

Author

Tranquille, G, Cenede, J, Frassier, A, Chritin, N S, Coutron, Y M, Sinturel, A, Ferreira, J A, von Freeden, L, Bajas, H, and Jorgensen, L V

Subjects
Electron cooling, Physics::Accelerator Physics, Physics::Atomic Physics, Nuclear Experiment, Accelerators and Storage Rings, Accelerator Physics
Abstract

The current electron cooler at the Antiproton Decelerator (AD) at CERN was built in the second half of the 1970s and is thus well over 40 years old. It was built for the Initial Cooling Experiment (ICE) where stochastic and electron cooling were tested to ascertain the feasibility of using these techniques to generate high intensity antiproton beams for the SPpS. The ICE electron cooler was subsequently upgraded and installed in LEAR (Low Energy Antiproton Ring) to help generate intense beams of antiprotons at low energies. After the stop of the antiproton physics at LEAR in 1996 and two years of studies of electron cooling of Pb ions, the electron cooler was moved to the AD where it has been in use ever since. With the new ELENA ring becoming operational, a major consolidation project has been launched to extend the life of the AD and as a part of this a new electron cooler for the AD is being built. In this paper, we describe some of the design considerations and challenges of this project as well as the expected gains in terms of cooling performance., Proceedings of the 13th International Workshop on Beam Cooling and Related Topics, COOL2021, Novosibirsk, Russia

Published
2021
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22. Production and detection of cold antihydrogen atoms

Author

Amoretti, M., Amsler, C., Bonomi, G., Bouchta, A., Bowe, P., Carraro, C., Cesar, C. L., Charlton, M., Collier, M. J. T., Doser, M., Filippini, V., Fine, K. S., Fontana, A., Fujiwara, M. C., Funakoshi, R., Genova, P., Hangst, J. S., Hayano, R. S., Holzscheiter, M. H., Jorgensen, L. V., Lagomarsino, V., Landua, R., Lindelof, D., Rizzini, E. Lodi, Macri, M., Madsen, N., Manuzio, G., Marchesotti, M., Montagna, P., Pruys, H., Regenfus, C., Riedler, P., Rochet, J., Rotondi, A., Rouleau, G., Testera, G., Variola, A., Watson, T. L., and van der Werf, D. P.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): M. Amoretti [1]; C. Amsler [2]; G. Bonomi [3, 4]; A. Bouchta [3]; P. Bowe [5]; C. Carraro [1]; C. L. Cesar [6]; M. Charlton [7]; M. J. T. [...]

Published
2002
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24. Extra Low ENergy Antiproton (ELENA) ring and its Transfer Lines: Design Report

Author

Chohan, Vinod, Alanzeau, C, Angoletta, M E, Baillie, J, Barna, D, Bartmann, W, Belochitskii, P, Borburgh, J, Breuker, H, Butin, F, Buzio, M, Capatina, O, Carli, C, Carlier, E, Cattin, M, Dobers, T, Chiggiato, P, Ducimetiere, L, Eriksson, T, Fedemann, S, Fowler, T, Froeschl, R, Gebel, R, Gilbert, N, Hancock, S, Harasimowicz, J, Hori, M, Jorgensen, L V, Kersevan, R, Kuchler, D, Lacroix, J M, LeGodec, G, Lelong, P, Lopez-Hernandez, L, Maury, S, Molendijk, J, Morand, B, Newborough, A, Nisbet, D, Nosych, A, Oelert, W, Paoluzzi, M, Pasinelli, S, Pedersen, F, Perini, D, Puccio, B, Sanchez-Quesada, J, Schoerling, D, Sermeus, L, Soby, L, Timmins, M, Tommasini, D, Tranquille, G, Vanbavinckhove, G, Vorozhtsov, A, Welsch, C, and Zickler, T

Subjects
Physics::Accelerator Physics, High Energy Physics::Experiment, Nuclear Experiment, Accelerators and Storage Rings
Abstract

This Report gives a full description of the ELENA Ring to be built within the circumference of the Antiproton Decelarator (AD) Ring, in Building 193 at CERN. The ELENA ring will further decelerate the antiprotons coming from the AD at the momentum of 100 MeV/c down to 13.7 MeV/c, which corresponds to the kinetic energy of 100 keV before extracting to the physics experiments in the same building. The history of such an extra low energy antiproton ring at CERN goes a long way back, and even to the Decelerator’s previous incarnation, the Low Energy Antiproton Ring (LEAR), which came into operation in 1983. Already at that time, there were physics’ requests to further decelerate the antiprotons expected from LEAR by proposals for ELENA. Appendix I illustrates the cover pages of two such CERN documents from 1982.

Published
2014

25. AEGIS at CERN: Measuring Antihydrogen Fall

Author

Giammarchi, M. G., Belov, A. S., Bonomi, G., Brusa, R. S., Byakov, V. M., Cabaret, L., Canali, C., Carraro, C., Castelli, F., Cialdi, S., Comparat, D., Consolati, Giovanni, Djourelov, N., Doser, M., Drobychev, G., Dudarev, A., Dupasquier, Alfredo, Fabris, D., Ferragut, RAFAEL OMAR, Ferrari, G., Fischer, A., Fontana, A., Gninenko, S. N., Heyne, R., Hogan, S. D., Jorgensen, L. V., Kellerbauer, A., Krasnicky, D., Lagomarsino, V., Mariazzi, S., Matveev, V. A., Merkt, F., Morhard, G., Nebbia, G., Nedelec, P., Oberthaler, M. K., Perini, D., Petracek, V., Prevedelli, M., Riccardi, C., Rohne, O., Rotondi, A., Sacerdoti, M., Sandaker, H., Sillou, D., Stepanov, S. V., Stroke, H. H., Testera, G., Trezzi, D., Turbabin, A. V., Viesti, G., Villa, F., Warring, U., Zavatarelli, S., Zenoni, A., and Zvezhinskij, D. S.

Subjects
Physics, Physics::General Physics, Physics - Instrumentation and Detectors, Large Hadron Collider, CPT symmetry, Atomic Physics (physics.atom-ph), FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, General Relativity and Quantum Cosmology (gr-qc), Instrumentation and Detectors (physics.ins-det), General Relativity and Quantum Cosmology, Atomic and Molecular Physics, and Optics, Physics - Atomic Physics, Nuclear physics, Antiproton Decelerator, High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), Gravitational field, Antimatter, Physics::Accelerator Physics, High Energy Physics::Experiment, Antihydrogen, Particle Physics - Phenomenology
Abstract

The main goal of the AEGIS experiment at the CERN Antiproton Decelerator is the test of fundamental laws such as the Weak Equivalence Principle (WEP) and CPT symmetry. In the first phase of AEGIS, a beam of antihydrogen will be formed whose fall in the gravitational field is measured in a Moire' deflectometer; this will constitute the first test of the WEP with antimatter., Comment: Presented at the Fifth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 28-July 2, 2010

Published
2011
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26. Antihydrogen annihilation reconstruction with the ALPHA silicon detector

Author

Andresen, G. B., Ashkezari, M. D., Bertsche, W., Bowe, P. D., Butler, E., Cesar, C. L., Chapman, S., Charlton, M., Deller, A., Eriksson, S., Fajans, J., Friesen, T., Fujiwara, M. C., Gill, D. R., Gutierrez, A., Hangst, J. S., Hardy, W. N., Hayden, M. E., Hayano, R. S., Humphries, A. J., Hydomako, R., Jonsell, Svante, Jorgensen, L. V., Kurchaninov, L., Madsen, N., Menary, S., Nolan, P., Olchanski, K., Olin, A., Povilus, A., Pusa, P., Sarid, E., el Nasr, S. Seif, Silveira, D. M., So, C., Storey, J. W., Thompson, R. I., van der Werf, D. P., Yamazaki, Y., Andresen, G. B., Ashkezari, M. D., Bertsche, W., Bowe, P. D., Butler, E., Cesar, C. L., Chapman, S., Charlton, M., Deller, A., Eriksson, S., Fajans, J., Friesen, T., Fujiwara, M. C., Gill, D. R., Gutierrez, A., Hangst, J. S., Hardy, W. N., Hayden, M. E., Hayano, R. S., Humphries, A. J., Hydomako, R., Jonsell, Svante, Jorgensen, L. V., Kurchaninov, L., Madsen, N., Menary, S., Nolan, P., Olchanski, K., Olin, A., Povilus, A., Pusa, P., Sarid, E., el Nasr, S. Seif, Silveira, D. M., So, C., Storey, J. W., Thompson, R. I., van der Werf, D. P., and Yamazaki, Y.

Abstract

The ALPHA experiment has succeeded in trapping antihydrogen, a major milestone on the road to spectroscopic comparisons of antihydrogen with hydrogen. An annihilation vertex detector, which determines the time and position of antiproton annihilations, has been central to this achievement. This detector, an array of double-sided silicon microstrip detector modules arranged in three concentric cylindrical tiers, is sensitive to the passage of charged particles resulting from antiproton annihilation. This article describes the method used to reconstruct the annihilation location and to distinguish the annihilation signal from the cosmic ray background. Recent experimental results using this detector are outlined., AuthorCount:39

Published
2012
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27. The ALPHA-detector : Module Production and Assembly

Author

Andresen, G. B., Ashkezari, M. D., Baquero-Ruiz, M., Bertsche, W., Bowe, P. D., Butler, E., Cesar, C. L., Chapman, S., Charlton, M., Deller, A., Eriksson, S., Fajans, J., Friesen, T., Fujiwara, M. C., Gill, D. R., Gutierrez, A., Hangst, J. S., Hardy, W. N., Hayden, M. E., Humphries, A. J., Hydomako, R., Jenkins, M. J., Jonsell, Svante, Jorgensen, L. V., Kurchaninov, L., Madsen, N., McKenna, J. T. K., Menary, S., Nolan, P., Olchanski, K., Olin, A., Povilus, A., Pusa, P., Robicheaux, F., Sampson, J., Sarid, E., Seddon, D., el Nasr, S. Seif, Silveira, D. M., So, C., Storey, J. W., Thompson, R. I., Thornhill, J., Wells, D., van der Werf, D. P., Wurtele, J. S., Yamazaki, Y., Andresen, G. B., Ashkezari, M. D., Baquero-Ruiz, M., Bertsche, W., Bowe, P. D., Butler, E., Cesar, C. L., Chapman, S., Charlton, M., Deller, A., Eriksson, S., Fajans, J., Friesen, T., Fujiwara, M. C., Gill, D. R., Gutierrez, A., Hangst, J. S., Hardy, W. N., Hayden, M. E., Humphries, A. J., Hydomako, R., Jenkins, M. J., Jonsell, Svante, Jorgensen, L. V., Kurchaninov, L., Madsen, N., McKenna, J. T. K., Menary, S., Nolan, P., Olchanski, K., Olin, A., Povilus, A., Pusa, P., Robicheaux, F., Sampson, J., Sarid, E., Seddon, D., el Nasr, S. Seif, Silveira, D. M., So, C., Storey, J. W., Thompson, R. I., Thornhill, J., Wells, D., van der Werf, D. P., Wurtele, J. S., and Yamazaki, Y.

Abstract

ALPHA is one of the experiments situated at CERN's Antiproton Decelerator (AD). A Silicon Vertex Detector (SVD) is placed to surround the ALPHA atom trap. The main purpose of the SVD is to detect and locate antiproton annihilation events by means of the emitted charged pions. The SVD system is presented with special focus given to the design, fabrication and performance of the modules., AuthorCount:47

Published
2012
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29. Trapped antihydrogen

Author

Andresen, G. B., Ashkezari, M. D., Baquero-Ruiz, M., Bertsche, W., Bowe, P. D., Butler, E., Cesar, C. L., Chapman, S., Charlton, M., Deller, A., Eriksson, S., Fajans, J., Friesen, T., Fujiwara, M. C., Gill, D. R., Gutierrez, A., Hangst, J. S., Hardy, W. N., Hayden, M. E., Humphries, A. J., Hydomako, R., Jenkins, M. J., Jonsell, Svante, Jorgensen, L. V., Kurchaninov, L., Madsen, N., Menary, S., Nolan, P., Olchanski, K., Olin, A., Povilus, A., Pusa, P., Robicheaux, F., Sarid, E., Nasr, S. Seif el, Silveira, D. M., So, C., Storey, J. W., Thompson, R. I., van der Werf, D. P., Wurtele, J. S., Yamazaki, Y., Andresen, G. B., Ashkezari, M. D., Baquero-Ruiz, M., Bertsche, W., Bowe, P. D., Butler, E., Cesar, C. L., Chapman, S., Charlton, M., Deller, A., Eriksson, S., Fajans, J., Friesen, T., Fujiwara, M. C., Gill, D. R., Gutierrez, A., Hangst, J. S., Hardy, W. N., Hayden, M. E., Humphries, A. J., Hydomako, R., Jenkins, M. J., Jonsell, Svante, Jorgensen, L. V., Kurchaninov, L., Madsen, N., Menary, S., Nolan, P., Olchanski, K., Olin, A., Povilus, A., Pusa, P., Robicheaux, F., Sarid, E., Nasr, S. Seif el, Silveira, D. M., So, C., Storey, J. W., Thompson, R. I., van der Werf, D. P., Wurtele, J. S., and Yamazaki, Y.

Abstract

Antimatter was first predicted1 in 1931, by Dirac. Work with high-energy antiparticles is now commonplace, and anti-electrons are used regularly in the medical technique of positron emission tomography scanning. Antihydrogen, the bound state of an antiproton and a positron, has been produced2, 3 at low energies at CERN (the European Organization for Nuclear Research) since 2002. Antihydrogen is of interest for use in a precision test of nature’s fundamental symmetries. The charge conjugation/parity/time reversal (CPT) theorem, a crucial part of the foundation of the standard model of elementary particles and interactions, demands that hydrogen and antihydrogen have the same spectrum. Given the current experimental precision of measurements on the hydrogen atom (about two parts in 1014 for the frequency of the 1s-to-2s transition4), subjecting antihydrogen to rigorous spectroscopic examination would constitute a compelling, model-independent test of CPT. Antihydrogen could also be used to study the gravitational behaviour of antimatter5. However, so far experiments have produced antihydrogen that is not confined, precluding detailed study of its structure. Here we demonstrate trapping of antihydrogen atoms. From the interaction of about 107 antiprotons and 7 × 108 positrons, we observed 38 annihilation events consistent with the controlled release of trapped antihydrogen from our magnetic trap; the measured background is 1.4 ± 1.4 events. This result opens the door to precision measurements on anti-atoms, which can soon be subjected to the same techniques as developed for hydrogen.

Published
2010
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30. AEgIS experiment commissioning at CERN

Author

Krasnický, D., primary, Aghion, S., additional, Amsler, C., additional, Ariga, A., additional, Ariga, T., additional, Belov, A. S., additional, Bonomi, G., additional, Bräunig, P., additional, Brusa, R. S., additional, Bremer, J., additional, Burghart, G., additional, Cabaret, L., additional, Caccia, M., additional, Canali, C., additional, Caravita, R., additional, Castelli, F., additional, Cerchiari, G., additional, Cialdi, S., additional, Comparat, D., additional, Consolati, G., additional, Dassa, L., additional, Di Domizio, S., additional, Di Noto, L., additional, Doser, M., additional, Dudarev, A., additional, Ereditato, A., additional, Ferragut, R., additional, Fontana, A., additional, Genova, P., additional, Giammarchi, M., additional, Gligorova, A., additional, Gninenko, S. N., additional, Hogan, S. D., additional, Haider, S., additional, Jordan, E., additional, Jo̸rgensen, L. V., additional, Kaltenbacher, T., additional, Kawada, J., additional, Kellerbauer, A., additional, Kimura, M., additional, Lagomarsino, V., additional, Mariazzi, S., additional, Matveev, V. A., additional, Merkt, F., additional, Moia, F., additional, Nebbia, G., additional, Nédélec, P., additional, Oberthaler, M. K., additional, Pacifico, N., additional, Petráček, V., additional, Pistillo, C., additional, Prelz, F., additional, Prevedelli, M., additional, Regenfus, C., additional, Riccardi, C., additional, Ro̸hne, O., additional, Rotondi, A., additional, Sandaker, H., additional, Scampoli, P., additional, Storey, J., additional, Subieta Vasquez, M. A., additional, Špaček, M., additional, Testera, G., additional, Vaccarone, R., additional, Villa, F., additional, and Zavatarelli, S., additional

Published
2013
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32. Antihydrogen physics: gravitation and spectroscopy in AEgISThis paper was presented at the International Conference on Precision Physics of Simple Atomic Systems, held at École de Physique, les Houches, France, 30 May – 4 June, 2010.

Author

Ferragut, R., primary, Belov, A. S., additional, Bonomi, G., additional, Boscolo, I., additional, Brusa, R. S., additional, Byakov, V. M., additional, Cabaret, L., additional, Calloni, A., additional, Canali, C., additional, Carraro, C., additional, Castelli, F., additional, Cialdi, S., additional, Comparat, D., additional, Consolati, G., additional, Dassa, L., additional, Djourelov, N., additional, Doser, M., additional, Drobychev, G., additional, Dudarev, A., additional, Dupasquier, A., additional, Ferrari, G., additional, Fischer, A., additional, Folegati, P., additional, Fontana, A., additional, Formaro, L., additional, Giammarchi, M. G., additional, Gninenko, S. N., additional, Heyne, R., additional, Hogan, S. D., additional, Jorgensen, L. V., additional, Kellerbauer, A., additional, Krasnicky, D., additional, Lagomarsino, V., additional, Manuzio, G., additional, Mariazzi, S., additional, Matveev, V. A., additional, Morhard, C., additional, Nebbia, G., additional, Nedelec, P., additional, Oberthaler, M. K., additional, Perini, D., additional, Petracek, V., additional, Prelz, F., additional, Prevedelli, M., additional, Al-Qaradawi, I. Y., additional, Quasso, F., additional, Riccardi, C., additional, Rohne, O., additional, Rotondi, A., additional, Sacerdoti, M., additional, Sandaker, H., additional, Sillou, D., additional, Stepanov, S. V., additional, Stroke, H. H., additional, Testera, G., additional, Trezzi, D., additional, Turbabin, A. V., additional, Vaccarone, R., additional, Villa, F., additional, Warring, U., additional, Zavatarelli, S., additional, Zenoni, A., additional, and Zvezhinskij, D. S., additional

Published
2011
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33. Recent Progress on the ATHENA Positron Accumulator

Author

WALES UNIV SWANSEA (UNITED KINGDOM) DEPT OF PHYSICS, Jorgensen, L. V., Werf, D. P. van der, Watson, T. L., Charlton, M., Collier, M. J., WALES UNIV SWANSEA (UNITED KINGDOM) DEPT OF PHYSICS, Jorgensen, L. V., Werf, D. P. van der, Watson, T. L., Charlton, M., and Collier, M. J.

Abstract

The Positron Accumulator for the ATHENA anti-hydrogen experiment at CERN, Geneva has recently been upgraded with a new 50 mCi(22)Na Beta(+)-radioactive source. Following this, rapid progress has been made in optimizing and characterizing the properties of the positron plasma. The rotating wall technique has also been implemented in the accumulation region and has been shown to lead to compression of better than a factor of 10 in density and markedly increased lifetimes, even when using the N2 buffer gas as a cooling gas. Using these techniques we have routinely accumulated up to 2 x 10(exp8) positrons in a few minutes. The positron plasma has a FWHM of only 3-4 mm when using the rotating wall which compares with a FWHM of 15 mm without the rotating wall., This article is from CP606, Non-Neutral Plasma Physics IV, p35-44, 2001. Pub. in AIP Conference Proceedings: volume 606. Prepared in cooperation with Ernst-Moritz-Arndt-Universitaet, Greifswald, Germany. This article is from ADA404831 Non-Neutral Plasma Physics 4. Workshop on Non-Neutral Plasmas (2001) Held in San Diego, California on 30 July-2 August 2001

Published
2002

34. Particle Physics Aspects of Antihydrogen Studies with ALPHA at CERN

Author

Fujiwara, M. C., primary, Andresen, G. B., additional, Bertsche, W., additional, Bowe, P. D., additional, Bray, C. C., additional, Butler, E., additional, Cesar, C. L., additional, Chapman, S., additional, Charlton, M., additional, Fajans, J., additional, Funakoshi, R., additional, Gill, D. R., additional, Hangst, J. S., additional, Hardy, W. N., additional, Hayano, R. S., additional, Hayden, M. E., additional, Humphries, A. J., additional, Hydomako, R., additional, Jenkins, M. J., additional, Jo̸rgensen, L. V., additional, Kurchaninov, L., additional, Lai, W., additional, Lambo, R., additional, Madsen, N., additional, Nolan, P., additional, Olchanski, K., additional, Olin, A., additional, Povilus, A., additional, Pusa, P., additional, Robicheaux, F., additional, Sarid, E., additional, El Nasr, S. Seif, additional, Silveira, D. M., additional, Storey, J. W., additional, Thompson, R. I., additional, van der Werf, D. P., additional, Wasilenko, L., additional, Wurtele, J. S., additional, Yamazaki, Y., additional, Kanai, Yasuyuki, additional, and Yamazaki, Yasunori, additional

Published
2008
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35. First Attempts at Antihydrogen Trapping in ALPHA

Author

Andresen, G. B., primary, Bertsche, W., additional, Bowe, P. D., additional, Bray, C. C., additional, Butler, E., additional, Cesar, C. L., additional, Chapman, S., additional, Charlton, M., additional, Fajans, J., additional, Fujiwara, M. C., additional, Funakoshi, R., additional, Gill, D. R., additional, Hangst, J. S., additional, Hardy, W. N., additional, Hayano, R. S., additional, Hayden, M. E., additional, Humphries, A. J., additional, Hydomako, R., additional, Jenkins, M. J., additional, Jo̸rgensen, L. V., additional, Kurchaninov, L., additional, Lambo, R., additional, Madsen, N., additional, Nolan, P., additional, Olchanski, K., additional, Olin, A., additional, Page, R. D., additional, Povilus, A., additional, Pusa, P., additional, Robicheaux, F., additional, Sarid, E., additional, El Nasr, S. Seif, additional, Silveira, D. M., additional, Storey, J. W., additional, Thompson, R. I., additional, van der Werf, D. P., additional, Wurtele, J. S., additional, Yamazaki, Y., additional, Kanai, Yasuyuki, additional, and Yamazaki, Yasunori, additional

Published
2008
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36. Antiproton compression and radial measurements

Author

Andresen, G. B., primary, Bertsche, W., additional, Bowe, P. D., additional, Bray, C. C., additional, Butler, E., additional, Cesar, C. L., additional, Chapman, S., additional, Charlton, M., additional, Fajans, J., additional, Fujiwara, M. C., additional, Funakoshi, R., additional, Gill, D. R., additional, Hangst, J. S., additional, Hardy, W. N., additional, Hayano, R. S., additional, Hayden, M. E., additional, Humphries, A. J., additional, Hydomako, R., additional, Jenkins, M. J., additional, Jo̸rgensen, L. V., additional, Kurchaninov, L., additional, Lambo, R., additional, Madsen, N., additional, Nolan, P., additional, Olchanski, K., additional, Olin, A., additional, Page, R. D., additional, Povilus, A., additional, Pusa, P., additional, Robicheaux, F., additional, Sarid, E., additional, El Nasr, S. Seif, additional, Silveira, D. M., additional, Storey, J. W., additional, Thompson, R. I., additional, van der Werf, D. P., additional, Wurtele, J. S., additional, Yamazaki, Y., additional, Kanai, Yasuyuki, additional, and Yamazaki, Yasunori, additional

Published
2008
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38. Results from ATHENA.

Author

Rotondi, A., Amoretti, M., Amsler, C., Bonomi, G., Bowe, P. D., Canali, C., Carraro, C., Cesar, C. L., Charlton, M., Doser, M., Fontana, A., Fujiwara, M. C., Funakoshi, R., Genova, P., Hangst, J. S., Hayano, R. S., Jorgensen, L. V., Kellerbauer, A., Lagomarsino, V., and Landua, R.

Subjects
ANTIPROTONS, HYDROGEN, POSITRONS, PLASMA gases, ATOMS, PHYSICAL & theoretical chemistry
Abstract

The ATHENA experiment at CERN produced for the first time in 2002 cold antihydrogen atoms by mixing of antiprotons and a positron plasma. The more relevant results obtained in the last three years are presented and discussed in the light of the antihydrogen formation processes. © 2005 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published
2005
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