Add to ORKGA new physical mechanism for positron accumulation is explained and demonstrated. Strongly magnetized Rydberg positronium is formed and then ionized, allowing us to trap equal numbers of either positrons or electrons over a wide range of conditions. Antiprotons are trapped, cooled, and stacked from the new Antiproton Decelerator facility for the first time. Combining positrons and antiprotons, we have demonstrated the first positron cooling of antiprotons. The cooling takes place in a 4.2 K, nested Penning trap where conditions are ideal for the eventual goal of the formation of antihydrogen
We demonstrate cooling of 10^4 antiprotons in a dense, cold plasma of ∼10^8 positrons, confined in a...
Antihydrogen, the bound state of an antiproton and a positron, is of interest for use in precision t...
Antihydrogen is formed when antiprotons are mixed with cold positrons in a nested Penning trap. We ...
Only our ATRAP Collaboration is yet able to accumulate and store 4.2 K antiprotons and positrons. Th...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2002.Includes bibliographi...
Positrons are used to cool antiprotons for the first time. The oppositely charged positrons and anti...
Low energy antiprotons and cold positrons are stored together and observed to interact for the first...
Antihydrogen, the bound state of a positron and an antiproton, is the only neutral pure antimatter s...
The production and study of cold antihydrogen will require the manipulation of dense and cold, singl...
Sustained advances in the trapping of positrons and antiprotons led to the recent creation of cold a...
Progress in the quest for cold antihydrogen includes the first substantial accumulation of cold posi...
The production of antihydrogen is examined in the light of recent experimental results on a techniqu...
Many cold positrons in ultrahigh vacuum are required to produce cold antihydrogen, to cool highly st...
We demonstrate cooling of 10^4 antiprotons in a dense, cold plasma of ∼10^8 positrons, confined in a...
Four billion positrons (e+) are accumulated in a Penning–Ioffe trap apparatus at 1.2 K and <6 × 10−1...
We demonstrate cooling of 10^4 antiprotons in a dense, cold plasma of ∼10^8 positrons, confined in a...
Antihydrogen, the bound state of an antiproton and a positron, is of interest for use in precision t...
Antihydrogen is formed when antiprotons are mixed with cold positrons in a nested Penning trap. We ...
Only our ATRAP Collaboration is yet able to accumulate and store 4.2 K antiprotons and positrons. Th...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2002.Includes bibliographi...
Positrons are used to cool antiprotons for the first time. The oppositely charged positrons and anti...
Low energy antiprotons and cold positrons are stored together and observed to interact for the first...
Antihydrogen, the bound state of a positron and an antiproton, is the only neutral pure antimatter s...
The production and study of cold antihydrogen will require the manipulation of dense and cold, singl...
Sustained advances in the trapping of positrons and antiprotons led to the recent creation of cold a...
Progress in the quest for cold antihydrogen includes the first substantial accumulation of cold posi...
The production of antihydrogen is examined in the light of recent experimental results on a techniqu...
Many cold positrons in ultrahigh vacuum are required to produce cold antihydrogen, to cool highly st...
We demonstrate cooling of 10^4 antiprotons in a dense, cold plasma of ∼10^8 positrons, confined in a...
Four billion positrons (e+) are accumulated in a Penning–Ioffe trap apparatus at 1.2 K and <6 × 10−1...
We demonstrate cooling of 10^4 antiprotons in a dense, cold plasma of ∼10^8 positrons, confined in a...
Antihydrogen, the bound state of an antiproton and a positron, is of interest for use in precision t...
Antihydrogen is formed when antiprotons are mixed with cold positrons in a nested Penning trap. We ...