Add to ORKGAbstract. The ALPHA experiment aims to trap antihydrogen as the next crucial step towards a precise CPT test, by a spectroscopic comparison of antihydrogen with hydrogen. The experiment will retain the salient techniques developed by the ATHENA collaboration during the previous phase of antihydrogen experiments at the antiproton decelerator (AD) at CERN. The collaboration has identified the key problems in adding a neutral antiatom trap to the previously developed experimental configuration. The solutions identified by ALPHA are described in this paper
The ALPHA experiment studies antihydrogen as a means to investigate the symmetry of matter and antim...
The first observations of antihydrogen (H) atoms [1, 2] in 1995 opened a new way of testing the fund...
The ALPHA project at the CERN AD is testing fundamental symmetries between matter and antimatter usi...
The ALPHA experiment aims to trap antihydrogen as the next crucial step towards a precise CPT test, ...
ALPHA is an experiment at CERN, whose ultimate goal is to perform a precise test of CPT symmetry wit...
ALPHA is an experiment at CERN, whose ultimate goal is to perform a precise test of CPT symmetry wit...
We discuss aspects of antihydrogen studies, that relate to particle physics ideas and techniques, wi...
ALPHA is an international project that has recently begun experimentation at CERN’s Antiproton Decel...
The goal of the ALPHA collaboration at CERN is to test CPT conservation by comparing the 1S–2S trans...
ALPHA is an international project that has recently begun experimentation at CERN's Antiproton Decel...
The ALPHA collaboration, based at CERN, has recently succeeded in confining cold antihydrogen atoms ...
The goal of the ALPHA collaboration at CERN is to test CPT conservation by comparing the 1S–2S trans...
Substantial progress has been made in the last few years in the nascent field of antihydrogen physic...
Detailed comparisons of antihydrogen with hydrogen promise to be a fruitful test bed of fundamental ...
Abstract: Antihydrogen spectroscopy promises precise tests of the symmetry of matter and antimatter,...
The ALPHA experiment studies antihydrogen as a means to investigate the symmetry of matter and antim...
The first observations of antihydrogen (H) atoms [1, 2] in 1995 opened a new way of testing the fund...
The ALPHA project at the CERN AD is testing fundamental symmetries between matter and antimatter usi...
The ALPHA experiment aims to trap antihydrogen as the next crucial step towards a precise CPT test, ...
ALPHA is an experiment at CERN, whose ultimate goal is to perform a precise test of CPT symmetry wit...
ALPHA is an experiment at CERN, whose ultimate goal is to perform a precise test of CPT symmetry wit...
We discuss aspects of antihydrogen studies, that relate to particle physics ideas and techniques, wi...
ALPHA is an international project that has recently begun experimentation at CERN’s Antiproton Decel...
The goal of the ALPHA collaboration at CERN is to test CPT conservation by comparing the 1S–2S trans...
ALPHA is an international project that has recently begun experimentation at CERN's Antiproton Decel...
The ALPHA collaboration, based at CERN, has recently succeeded in confining cold antihydrogen atoms ...
The goal of the ALPHA collaboration at CERN is to test CPT conservation by comparing the 1S–2S trans...
Substantial progress has been made in the last few years in the nascent field of antihydrogen physic...
Detailed comparisons of antihydrogen with hydrogen promise to be a fruitful test bed of fundamental ...
Abstract: Antihydrogen spectroscopy promises precise tests of the symmetry of matter and antimatter,...
The ALPHA experiment studies antihydrogen as a means to investigate the symmetry of matter and antim...
The first observations of antihydrogen (H) atoms [1, 2] in 1995 opened a new way of testing the fund...
The ALPHA project at the CERN AD is testing fundamental symmetries between matter and antimatter usi...