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Low Energy Experiments that Measure Fundamental Constants and Test Basic Symmetries (4/4)

<!--HTML--><b>Cold Antihydrogen: Are We There? </b> Cold antihydrogen offers the possibility to precisely compare the structure of antihydrogen and hydrogen atoms, using the well developed tools of laser spectroscopy with antihydrogen atoms cold enough to be trapped in the minimum...

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Autor principal: G. GABRIELSE (Professor of Physics and Chair of the Harvard Physics Department, Spokesperson for the
Lenguaje:eng
Publicado: 2002
Materias:
Acceso en línea:http://cds.cern.ch/record/2799735
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author G. GABRIELSE (Professor of Physics and Chair of the Harvard Physics Department, Spokesperson for the,
author_facet G. GABRIELSE (Professor of Physics and Chair of the Harvard Physics Department, Spokesperson for the,
author_sort G. GABRIELSE (Professor of Physics and Chair of the Harvard Physics Department, Spokesperson for the,
collection CERN
description <!--HTML--><b>Cold Antihydrogen: Are We There? </b> Cold antihydrogen offers the possibility to precisely compare the structure of antihydrogen and hydrogen atoms, using the well developed tools of laser spectroscopy with antihydrogen atoms cold enough to be trapped in the minimum of a magnetic field gradient. Progress made at CERN's new Antiproton Decelerator will be discussed, along with goals and aspirations, such as measuring the anti-Rydberg constant. ATRAP has observed and studied the interaction of low energy antiprotons and positrons for more than a year, and ATHENA hopes to soon make antiprotons and positrons to interact as well.
id cern-2799735
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2002
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spelling cern-27997352022-11-03T08:15:18Zhttp://cds.cern.ch/record/2799735engG. GABRIELSE (Professor of Physics and Chair of the Harvard Physics Department, Spokesperson for the, Low Energy Experiments that Measure Fundamental Constants and Test Basic Symmetries (4/4)Low Energy Experiments that Measure Fundamental Constants and Test Basic Symmetries (4/4)Academic Training Lecture Regular Programme<!--HTML--><b>Cold Antihydrogen: Are We There? </b> Cold antihydrogen offers the possibility to precisely compare the structure of antihydrogen and hydrogen atoms, using the well developed tools of laser spectroscopy with antihydrogen atoms cold enough to be trapped in the minimum of a magnetic field gradient. Progress made at CERN's new Antiproton Decelerator will be discussed, along with goals and aspirations, such as measuring the anti-Rydberg constant. ATRAP has observed and studied the interaction of low energy antiprotons and positrons for more than a year, and ATHENA hopes to soon make antiprotons and positrons to interact as well.oai:cds.cern.ch:27997352002
spellingShingle Academic Training Lecture Regular Programme
G. GABRIELSE (Professor of Physics and Chair of the Harvard Physics Department, Spokesperson for the,
Low Energy Experiments that Measure Fundamental Constants and Test Basic Symmetries (4/4)
title Low Energy Experiments that Measure Fundamental Constants and Test Basic Symmetries (4/4)
title_full Low Energy Experiments that Measure Fundamental Constants and Test Basic Symmetries (4/4)
title_fullStr Low Energy Experiments that Measure Fundamental Constants and Test Basic Symmetries (4/4)
title_full_unstemmed Low Energy Experiments that Measure Fundamental Constants and Test Basic Symmetries (4/4)
title_short Low Energy Experiments that Measure Fundamental Constants and Test Basic Symmetries (4/4)
title_sort low energy experiments that measure fundamental constants and test basic symmetries (4/4)
topic Academic Training Lecture Regular Programme
url http://cds.cern.ch/record/2799735
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