The Antihydrogen Trap (ATRAP) collaboration at the Antiproton Decelerator facility at CERN, Geneva, is responsible for the AD-2 experiment. It is a continuation of the TRAP collaboration, which started taking data for the TRAP experiment (also known as the PS196 experiment) in 1985.[1][2] The TRAP experiment pioneered cold antiprotons, cold positrons, and first made the ingredients of cold antihydrogen to interact. Later ATRAP members pioneered accurate hydrogenspectroscopy and observed the first hot antihydrogen atoms.
ATRAP collaborators next to the apparatus that first trapped, cooled and stacked antiprotons at CERN's AD
ATRAP is a collaboration between physicists around the world with the goal of creating and experimenting with antihydrogen. ATRAP accumulates positrons emitted from a radioactive 22Na source. There are two effective ways to slow down the fast positrons by inelastic processes. The ATRAP collaboration initially chose a different method to ATHENA (AD-1).
Slowing down and trapping positronedit
The positrons which were emitted by the 22Na were first slowed down with a 10 μm thick titanium foil and then passed through a 2 μm thick tungsten crystal. Within the crystal there is a possibility that a positively charged positron and a negatively charged electron form a Rydberg positronium atom. In this process, the positrons lose much of their energy so that it is no longer necessary (as in ATHENA) to decelerate further with collisions in gas. When the loosely bound Rydberg positronium atom reaches the Penning trap at the end of the apparatus, it is ionized and the positron is caught in the trap.
A post-doctoral fellow on the ATRAP experiment, with the Penning trap apparatus for trapping antiprotons.
Since this method of positron accumulation was not particularly efficient, ATRAP switched to a Surko-type buffer gas accumulator as is now standard in experiments requiring large numbers of positrons.[3] This has led to the storage of the largest ever number of positrons in an Ioffe trap.[4]
Unlike ATHENA, ATRAP has not yet been terminated and can be continuously improved and expanded. ATRAP now has an Ioffe trap, which can store the electrically neutral antihydrogen using a magnetic quadrupole field. This is possible because the magnetic moment of antihydrogen is non-zero. It is intended that laser spectroscopy will be performed on antihydrogen stored in the Ioffe trap.
ATRAP collaborationedit
The ATRAP collaboration comprises the following institutions:
^Gabrielse, G.; Fei, X.; Orozco, L.; Tjoelker, R.; Haas, J.; Kalinowsky, H.; Trainor, T.; Kells, W. (September 1990). "Thousandfold improvement in the measured antiproton mass". Physical Review Letters. 65 (11): 1317–1320. Bibcode:1990PhRvL..65.1317G. doi:10.1103/PhysRevLett.65.1317. ISSN 0031-9007. PMID 10042233.{{cite journal}}: CS1 maint: date and year (link)
^"Greybook: PS196". greybook.cern.ch. from the original on 2021-07-09. Retrieved 2021-07-06.
^"UC San Diego: Department of Physics – Surko Plasma Research Group". Retrieved 21 December 2016.
^Fitzakerley, D. W.; et al. (ATRAP Collaboration) (2016). "Electron-cooled accumulation of 4×109 positrons for production and storage of antihydrogen atoms". Journal of Physics B. 49 (6): 064001. Bibcode:2016JPhB...49f4001F. doi:10.1088/0953-4075/49/6/064001. S2CID 108283977.
atrap, experiment, antihydrogen, trap, atrap, collaboration, antiproton, decelerator, facility, cern, geneva, responsible, experiment, continuation, trap, collaboration, which, started, taking, data, trap, experiment, also, known, ps196, experiment, 1985, trap. The Antihydrogen Trap ATRAP collaboration at the Antiproton Decelerator facility at CERN Geneva is responsible for the AD 2 experiment It is a continuation of the TRAP collaboration which started taking data for the TRAP experiment also known as the PS196 experiment in 1985 1 2 The TRAP experiment pioneered cold antiprotons cold positrons and first made the ingredients of cold antihydrogen to interact Later ATRAP members pioneered accurate hydrogen spectroscopy and observed the first hot antihydrogen atoms Contents 1 Experimental setup 1 1 Slowing down and trapping positron 2 ATRAP collaboration 3 References 4 External linksExperimental setup edit nbsp ATRAP collaborators next to the apparatus that first trapped cooled and stacked antiprotons at CERN s AD ATRAP is a collaboration between physicists around the world with the goal of creating and experimenting with antihydrogen ATRAP accumulates positrons emitted from a radioactive 22Na source There are two effective ways to slow down the fast positrons by inelastic processes The ATRAP collaboration initially chose a different method to ATHENA AD 1 Slowing down and trapping positron edit The positrons which were emitted by the 22Na were first slowed down with a 10 mm thick titanium foil and then passed through a 2 mm thick tungsten crystal Within the crystal there is a possibility that a positively charged positron and a negatively charged electron form a Rydberg positronium atom In this process the positrons lose much of their energy so that it is no longer necessary as in ATHENA to decelerate further with collisions in gas When the loosely bound Rydberg positronium atom reaches the Penning trap at the end of the apparatus it is ionized and the positron is caught in the trap nbsp A post doctoral fellow on the ATRAP experiment with the Penning trap apparatus for trapping antiprotons Since this method of positron accumulation was not particularly efficient ATRAP switched to a Surko type buffer gas accumulator as is now standard in experiments requiring large numbers of positrons 3 This has led to the storage of the largest ever number of positrons in an Ioffe trap 4 Unlike ATHENA ATRAP has not yet been terminated and can be continuously improved and expanded ATRAP now has an Ioffe trap which can store the electrically neutral antihydrogen using a magnetic quadrupole field This is possible because the magnetic moment of antihydrogen is non zero It is intended that laser spectroscopy will be performed on antihydrogen stored in the Ioffe trap ATRAP collaboration editThe ATRAP collaboration comprises the following institutions Harvard University US York University Canada University of Mainz Germany Forschungszentrum Julich GermanyReferences edit Gabrielse G Fei X Orozco L Tjoelker R Haas J Kalinowsky H Trainor T Kells W September 1990 Thousandfold improvement in the measured antiproton mass Physical Review Letters 65 11 1317 1320 Bibcode 1990PhRvL 65 1317G doi 10 1103 PhysRevLett 65 1317 ISSN 0031 9007 PMID 10042233 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint date and year link Greybook PS196 greybook cern ch Archived from the original on 2021 07 09 Retrieved 2021 07 06 UC San Diego Department of Physics Surko Plasma Research Group Retrieved 21 December 2016 Fitzakerley D W et al ATRAP Collaboration 2016 Electron cooled accumulation of 4 109 positrons for production and storage of antihydrogen atoms Journal of Physics B 49 6 064001 Bibcode 2016JPhB 49f4001F doi 10 1088 0953 4075 49 6 064001 S2CID 108283977 External links editRecord for ATRAP experiment on INSPRE HEP Retrieved from https en wikipedia org w index php title ATRAP experiment amp oldid 1206251595, wikipedia, wiki, book, books, library,
