Experiments with low-energy antimatter

Experiments with low-energy antimatter

Investigations on antimatter allow us to shed light on fundamental issues of contemporary physics. The only antiatom presently available, antihydrogen, is produced making use of the Antiproton Decelerator (AD) facility at CERN. International collaborations currently on the floor (ALPHA, ASACUSA and...

Full description

Bibliographic Details
Main Authors: Consolati G., Aghion S., Amsler C., Ariga A., Ariga T., Belov A., Bonomi G., Bräunig P., Bremer J., Brusa R.S., Cabaret L., Caccia M., Caravita R., Castelli F., Cerchiari G., Chlouba K., Cialdi S., Comparat D., Demetrio A., Derking H., Di Noto L., Doser M., Dudarev A., Ereditato A., Ferragut R., Fontana A., Gerber S., Giammarchi M., Gligorova A., Gninenko S., Haider S., Hogan S., Holmestad H., Huse T., Jordan E. J., Kawada J., Kellerbauer A., Kimura M., Krasnicky D., Lagomarsino V., Lehner S., Malbrunot C., Mariazzi S., Matveev V., Mazzotta Z., Nebbia G., Nedelec P., Oberthaler M., Pacifico N., Penasa L., Petracek V., Pistillo C., Prelz F., Prevedelli M., Ravelli L., Riccardi C., Røhne O.M., Rosenberger S., Rotondi A., Sacerdoti M., Sandaker H., Santoro R., Scampoli P., Simon M., Spacek M., Storey J., Strojek I. M., Subieta M., Testera G., Widmann E., Yzombard P., Zavatarelli S., Zmeskal J.
Format: Article
Language:English
Published: EDP Sciences 2015-01-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/20159601007
id doaj-9ab813da6fcc4f709da9470ca092d60f
record_format Article
collection DOAJ
language English
format Article
sources DOAJ
author Consolati G.
Aghion S.
Amsler C.
Ariga A.
Ariga T.
Belov A.
Bonomi G.
Bräunig P.
Bremer J.
Brusa R.S.
Cabaret L.
Caccia M.
Caravita R.
Castelli F.
Cerchiari G.
Chlouba K.
Cialdi S.
Comparat D.
Demetrio A.
Derking H.
Di Noto L.
Doser M.
Dudarev A.
Ereditato A.
Ferragut R.
Fontana A.
Gerber S.
Giammarchi M.
Gligorova A.
Gninenko S.
Haider S.
Hogan S.
Holmestad H.
Huse T.
Jordan E. J.
Kawada J.
Kellerbauer A.
Kimura M.
Krasnicky D.
Lagomarsino V.
Lehner S.
Malbrunot C.
Mariazzi S.
Matveev V.
Mazzotta Z.
Nebbia G.
Nedelec P.
Oberthaler M.
Pacifico N.
Penasa L.
Petracek V.
Pistillo C.
Prelz F.
Prevedelli M.
Ravelli L.
Riccardi C.
Røhne O.M.
Rosenberger S.
Rotondi A.
Sacerdoti M.
Sandaker H.
Santoro R.
Scampoli P.
Simon M.
Spacek M.
Storey J.
Strojek I. M.
Subieta M.
Testera G.
Widmann E.
Yzombard P.
Zavatarelli S.
Zmeskal J.
spellingShingle Consolati G.
Aghion S.
Amsler C.
Ariga A.
Ariga T.
Belov A.
Bonomi G.
Bräunig P.
Bremer J.
Brusa R.S.
Cabaret L.
Caccia M.
Caravita R.
Castelli F.
Cerchiari G.
Chlouba K.
Cialdi S.
Comparat D.
Demetrio A.
Derking H.
Di Noto L.
Doser M.
Dudarev A.
Ereditato A.
Ferragut R.
Fontana A.
Gerber S.
Giammarchi M.
Gligorova A.
Gninenko S.
Haider S.
Hogan S.
Holmestad H.
Huse T.
Jordan E. J.
Kawada J.
Kellerbauer A.
Kimura M.
Krasnicky D.
Lagomarsino V.
Lehner S.
Malbrunot C.
Mariazzi S.
Matveev V.
Mazzotta Z.
Nebbia G.
Nedelec P.
Oberthaler M.
Pacifico N.
Penasa L.
Petracek V.
Pistillo C.
Prelz F.
Prevedelli M.
Ravelli L.
Riccardi C.
Røhne O.M.
Rosenberger S.
Rotondi A.
Sacerdoti M.
Sandaker H.
Santoro R.
Scampoli P.
Simon M.
Spacek M.
Storey J.
Strojek I. M.
Subieta M.
Testera G.
Widmann E.
Yzombard P.
Zavatarelli S.
Zmeskal J.
Experiments with low-energy antimatter
EPJ Web of Conferences
author_facet Consolati G.
Aghion S.
Amsler C.
Ariga A.
Ariga T.
Belov A.
Bonomi G.
Bräunig P.
Bremer J.
Brusa R.S.
Cabaret L.
Caccia M.
Caravita R.
Castelli F.
Cerchiari G.
Chlouba K.
Cialdi S.
Comparat D.
Demetrio A.
Derking H.
Di Noto L.
Doser M.
Dudarev A.
Ereditato A.
Ferragut R.
Fontana A.
Gerber S.
Giammarchi M.
Gligorova A.
Gninenko S.
Haider S.
Hogan S.
Holmestad H.
Huse T.
Jordan E. J.
Kawada J.
Kellerbauer A.
Kimura M.
Krasnicky D.
Lagomarsino V.
Lehner S.
Malbrunot C.
Mariazzi S.
Matveev V.
Mazzotta Z.
Nebbia G.
Nedelec P.
Oberthaler M.
Pacifico N.
Penasa L.
Petracek V.
Pistillo C.
Prelz F.
Prevedelli M.
Ravelli L.
Riccardi C.
Røhne O.M.
Rosenberger S.
Rotondi A.
Sacerdoti M.
Sandaker H.
Santoro R.
Scampoli P.
Simon M.
Spacek M.
Storey J.
Strojek I. M.
Subieta M.
Testera G.
Widmann E.
Yzombard P.
Zavatarelli S.
Zmeskal J.
author_sort Consolati G.
title Experiments with low-energy antimatter
title_short Experiments with low-energy antimatter
title_full Experiments with low-energy antimatter
title_fullStr Experiments with low-energy antimatter
title_full_unstemmed Experiments with low-energy antimatter
title_sort experiments with low-energy antimatter
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2015-01-01
description Investigations on antimatter allow us to shed light on fundamental issues of contemporary physics. The only antiatom presently available, antihydrogen, is produced making use of the Antiproton Decelerator (AD) facility at CERN. International collaborations currently on the floor (ALPHA, ASACUSA and ATRAP) have succeeded in producing antihydrogen and are now involved in its confinement and manipulation. The AEGIS experiment is currently completing the commissioning of the apparatus which will generate and manipulate antiatoms. The present paper, after a report on the main results achieved with antihydrogen physics, gives an overview of the AEGIS experiment, describes its current status and discusses its first target.
url http://dx.doi.org/10.1051/epjconf/20159601007
work_keys_str_mv AT consolatig experimentswithlowenergyantimatter
AT aghions experimentswithlowenergyantimatter
AT amslerc experimentswithlowenergyantimatter
AT arigaa experimentswithlowenergyantimatter
AT arigat experimentswithlowenergyantimatter
AT belova experimentswithlowenergyantimatter
AT bonomig experimentswithlowenergyantimatter
AT braunigp experimentswithlowenergyantimatter
AT bremerj experimentswithlowenergyantimatter
AT brusars experimentswithlowenergyantimatter
AT cabaretl experimentswithlowenergyantimatter
AT cacciam experimentswithlowenergyantimatter
AT caravitar experimentswithlowenergyantimatter
AT castellif experimentswithlowenergyantimatter
AT cerchiarig experimentswithlowenergyantimatter
AT chloubak experimentswithlowenergyantimatter
AT cialdis experimentswithlowenergyantimatter
AT comparatd experimentswithlowenergyantimatter
AT demetrioa experimentswithlowenergyantimatter
AT derkingh experimentswithlowenergyantimatter
AT dinotol experimentswithlowenergyantimatter
AT doserm experimentswithlowenergyantimatter
AT dudareva experimentswithlowenergyantimatter
AT ereditatoa experimentswithlowenergyantimatter
AT ferragutr experimentswithlowenergyantimatter
AT fontanaa experimentswithlowenergyantimatter
AT gerbers experimentswithlowenergyantimatter
AT giammarchim experimentswithlowenergyantimatter
AT gligorovaa experimentswithlowenergyantimatter
AT gninenkos experimentswithlowenergyantimatter
AT haiders experimentswithlowenergyantimatter
AT hogans experimentswithlowenergyantimatter
AT holmestadh experimentswithlowenergyantimatter
AT huset experimentswithlowenergyantimatter
AT jordanej experimentswithlowenergyantimatter
AT kawadaj experimentswithlowenergyantimatter
AT kellerbauera experimentswithlowenergyantimatter
AT kimuram experimentswithlowenergyantimatter
AT krasnickyd experimentswithlowenergyantimatter
AT lagomarsinov experimentswithlowenergyantimatter
AT lehners experimentswithlowenergyantimatter
AT malbrunotc experimentswithlowenergyantimatter
AT mariazzis experimentswithlowenergyantimatter
AT matveevv experimentswithlowenergyantimatter
AT mazzottaz experimentswithlowenergyantimatter
AT nebbiag experimentswithlowenergyantimatter
AT nedelecp experimentswithlowenergyantimatter
AT oberthalerm experimentswithlowenergyantimatter
AT pacificon experimentswithlowenergyantimatter
AT penasal experimentswithlowenergyantimatter
AT petracekv experimentswithlowenergyantimatter
AT pistilloc experimentswithlowenergyantimatter
AT prelzf experimentswithlowenergyantimatter
AT prevedellim experimentswithlowenergyantimatter
AT ravellil experimentswithlowenergyantimatter
AT riccardic experimentswithlowenergyantimatter
AT røhneom experimentswithlowenergyantimatter
AT rosenbergers experimentswithlowenergyantimatter
AT rotondia experimentswithlowenergyantimatter
AT sacerdotim experimentswithlowenergyantimatter
AT sandakerh experimentswithlowenergyantimatter
AT santoror experimentswithlowenergyantimatter
AT scampolip experimentswithlowenergyantimatter
AT simonm experimentswithlowenergyantimatter
AT spacekm experimentswithlowenergyantimatter
AT storeyj experimentswithlowenergyantimatter
AT strojekim experimentswithlowenergyantimatter
AT subietam experimentswithlowenergyantimatter
AT testerag experimentswithlowenergyantimatter
AT widmanne experimentswithlowenergyantimatter
AT yzombardp experimentswithlowenergyantimatter
AT zavatarellis experimentswithlowenergyantimatter
AT zmeskalj experimentswithlowenergyantimatter
_version_ 1721240652392431616
spelling doaj-9ab813da6fcc4f709da9470ca092d60f2021-08-02T06:03:22ZengEDP SciencesEPJ Web of Conferences2100-014X2015-01-01960100710.1051/epjconf/20159601007epjconf_dhf2014_01007Experiments with low-energy antimatterConsolati G.0Aghion S.1Amsler C.2Ariga A.3Ariga T.4Belov A.5Bonomi G.Bräunig P.6Bremer J.7Brusa R.S.Cabaret L.8Caccia M.Caravita R.Castelli F.Cerchiari G.9Chlouba K.10Cialdi S.Comparat D.11Demetrio A.12Derking H.13Di Noto L.Doser M.14Dudarev A.15Ereditato A.16Ferragut R.17Fontana A.18Gerber S.19Giammarchi M.20Gligorova A.21Gninenko S.22Haider S.23Hogan S.24Holmestad H.25Huse T.26Jordan E. J.27Kawada J.28Kellerbauer A.29Kimura M.30Krasnicky D.Lagomarsino V.Lehner S.31Malbrunot C.Mariazzi S.32Matveev V.33Mazzotta Z.Nebbia G.34Nedelec P.35Oberthaler M.36Pacifico N.37Penasa L.Petracek V.38Pistillo C.39Prelz F.40Prevedelli M.41Ravelli L.Riccardi C.Røhne O.M.42Rosenberger S.43Rotondi A.Sacerdoti M.Sandaker H.44Santoro R.Scampoli P.Simon M.45Spacek M.46Storey J.47Strojek I. M.48Subieta M.Testera G.49Widmann E.50Yzombard P.51Zavatarelli S.52Zmeskal J.53Department of Science, University of InsubriaDepartment of Science, University of InsubriaLaboratory for High Energy Physics, Albert Einstein Center for Fundamental Physics, University of BernLaboratory for High Energy Physics, Albert Einstein Center for Fundamental Physics, University of BernLaboratory for High Energy Physics, Albert Einstein Center for Fundamental Physics, University of BernInstitute for Nuclear Research of the Russian Academy of ScienceKirchhoff-Institute for Physics, Heidelberg UniversityPhysics Department, CERNLaboratory Aimé Cotton, CNRS, University of Paris-SudMax Planck Institute for Nuclear PhysicsCzech Technical UniversityLaboratory Aimé Cotton, CNRS, University of Paris-SudKirchhoff-Institute for Physics, Heidelberg UniversityPhysics Department, CERNPhysics Department, CERNPhysics Department, CERNLaboratory for High Energy Physics, Albert Einstein Center for Fundamental Physics, University of BernDepartment of Science, University of InsubriaINFN PaviaPhysics Department, CERNINFN MilanoInstitute of Physics and Technology, University of BergenInstitute for Nuclear Research of the Russian Academy of SciencePhysics Department, CERNUniversity College LondonDepartment of Physics, University of OsloDepartment of Physics, University of OsloMax Planck Institute for Nuclear PhysicsLaboratory for High Energy Physics, Albert Einstein Center for Fundamental Physics, University of BernMax Planck Institute for Nuclear PhysicsLaboratory for High Energy Physics, Albert Einstein Center for Fundamental Physics, University of BernStefan Meyer Institute for Subatomic Physics, Austrian Academy of SciencesStefan Meyer Institute for Subatomic Physics, Austrian Academy of SciencesInstitute for Nuclear Research of the Russian Academy of ScienceINFN PadovaInstitute of Nuclear Physics, CNRS/IN2p3, University of Lyon 1Kirchhoff-Institute for Physics, Heidelberg UniversityInstitute of Physics and Technology, University of BergenCzech Technical UniversityLaboratory for High Energy Physics, Albert Einstein Center for Fundamental Physics, University of BernINFN MilanoUniversity of BolognaDepartment of Physics, University of OsloPhysics Department, CERNDepartment of Physics, University of OsloStefan Meyer Institute for Subatomic Physics, Austrian Academy of SciencesCzech Technical UniversityLaboratory for High Energy Physics, Albert Einstein Center for Fundamental Physics, University of BernCzech Technical UniversityINFN GenovaStefan Meyer Institute for Subatomic Physics, Austrian Academy of SciencesLaboratory Aimé Cotton, CNRS, University of Paris-SudINFN GenovaStefan Meyer Institute for Subatomic Physics, Austrian Academy of SciencesInvestigations on antimatter allow us to shed light on fundamental issues of contemporary physics. The only antiatom presently available, antihydrogen, is produced making use of the Antiproton Decelerator (AD) facility at CERN. International collaborations currently on the floor (ALPHA, ASACUSA and ATRAP) have succeeded in producing antihydrogen and are now involved in its confinement and manipulation. The AEGIS experiment is currently completing the commissioning of the apparatus which will generate and manipulate antiatoms. The present paper, after a report on the main results achieved with antihydrogen physics, gives an overview of the AEGIS experiment, describes its current status and discusses its first target.http://dx.doi.org/10.1051/epjconf/20159601007

Similar Items