Add to ORKGProduction 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
The creation of cold antihydrogen by the ATHENA and ATRAP collaborations, working at CERN's unique A...
The detection of electrostatic nonneutral plasma modes in the ATHENA (ApparaTus for High precision E...
AbstractWe show that antihydrogen production is the dominant process when mixing antiprotons and pos...
Production of antihydrogen atoms by mixing antiprotons with a cold, confined, positron plasma depend...
An observation of a clear dependence of antihydrogen production on positron plasma shapes is reporte...
Cold antihydrogen atoms were produced by mixing cold samples of antiprotons and positrons. The tempe...
In the year 2002, two experiments at CERN succeeded in producing cold antihydrogen atoms, first ATHE...
AbstractCold antihydrogen atoms were produced by mixing cold samples of antiprotons and positrons. T...
In the ATHENA experiment, which has recently produced and detected cold antihydrogen, the antiatoms ...
Abstract Preliminary results about the handling of charged plasma in ATHENA are shown describing b...
We demonstrate temporally controlled modulation of cold antihydrogen production by periodic RF heati...
Abstract We demonstrate cooling of 10 4 antiprotons in a dense, cold plasma of ∼10 8 positrons, ...
The ASACUSA collaboration produces a beam of antihydrogen atoms by mixing pure positron and antiprot...
The ATHENA experiment recently produced the first sample of cold anti-hydrogen atoms by mixing cold ...
The positron, the antiparticle of the electron, predicted by Dirac in 1931 and discovered by Anderso...
The creation of cold antihydrogen by the ATHENA and ATRAP collaborations, working at CERN's unique A...
The detection of electrostatic nonneutral plasma modes in the ATHENA (ApparaTus for High precision E...
AbstractWe show that antihydrogen production is the dominant process when mixing antiprotons and pos...
Production of antihydrogen atoms by mixing antiprotons with a cold, confined, positron plasma depend...
An observation of a clear dependence of antihydrogen production on positron plasma shapes is reporte...
Cold antihydrogen atoms were produced by mixing cold samples of antiprotons and positrons. The tempe...
In the year 2002, two experiments at CERN succeeded in producing cold antihydrogen atoms, first ATHE...
AbstractCold antihydrogen atoms were produced by mixing cold samples of antiprotons and positrons. T...
In the ATHENA experiment, which has recently produced and detected cold antihydrogen, the antiatoms ...
Abstract Preliminary results about the handling of charged plasma in ATHENA are shown describing b...
We demonstrate temporally controlled modulation of cold antihydrogen production by periodic RF heati...
Abstract We demonstrate cooling of 10 4 antiprotons in a dense, cold plasma of ∼10 8 positrons, ...
The ASACUSA collaboration produces a beam of antihydrogen atoms by mixing pure positron and antiprot...
The ATHENA experiment recently produced the first sample of cold anti-hydrogen atoms by mixing cold ...
The positron, the antiparticle of the electron, predicted by Dirac in 1931 and discovered by Anderso...
The creation of cold antihydrogen by the ATHENA and ATRAP collaborations, working at CERN's unique A...
The detection of electrostatic nonneutral plasma modes in the ATHENA (ApparaTus for High precision E...
AbstractWe show that antihydrogen production is the dominant process when mixing antiprotons and pos...