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New approach to studying antimatter |
| TheallIneed.com/NC&T/UCR |
"Our research also gives the first hint of the presence of double positronium molecules, each of which is made up of two electrons and two positrons," said Allen Mills, professor of physics and leader of the research project. "This kind of matter-antimatter pairing has never been formed or studied in the laboratory until now, and paves the way for a new field of study on its properties."
The researchers will publish their work in Physical Review Letters.
Each particle of matter has a corresponding "antiparticle" of antimatter. Electrons are negatively charged particles that surround every atom's nucleus. The positron is an antiparticle with the same mass and magnitude of charge as an electron but exhibiting a positive charge. When matter, such as an electron, combines with an equal amount of antimatter, such as a positron, they are converted into energetic particles or radiation.
Positrons are generally short-lived because they tend to combine quickly with electrons. But, by storing the positrons in a "magnetic bottle," physicists have been able to prolong the life of the positrons and accumulate millions of them at once.
In their experiments, the UCR researchers obtained positrons from a radioactive form of sodium. They emptied the positrons out of a magnetic bottle onto a small spot on a target surface comprised of a thin piece of porous silica. There, the positrons combined with electrons to spontaneously form a high concentration of unstable positronium atoms. The newly formed atoms quickly took up residence in the pores of the target, and began to collide with one another, producing energy in the form of gamma radiation.
 | | Allen Mills, leader of the research project on the collision of positronium atoms, is a professor of physics at UCR. (Photo: UCR) |
"This is the first time anyone has been able to observe a collection of positronium atoms that collide with one another," Mills said. "We knew we had a dense collection of these atoms because, being so close to one another, they were annihilating faster than when they were just by themselves."
The research paves the way for future experiments that would use a positronium atom laser to search for anti-gravity effects associated with antimatter and to measure the properties of positronium to a very high precision.
"So far, we've had only a suggestion that double positronium molecules were present in our experiment," Mills said. "Our next step will be to confirm their existence and to measure their properties."
Besides Mills, D. B. Cassidy, S. H. M. Deng and H. K. M. Tanaka of UCR; R. G. Greaves of First Point Scientific, Inc., Agoura Hills, Calif.; T. Maruo and N. Nishiyama of Osaka University, Japan; and J. B. Snyder of Principia College, Ill., were involved in the study. UCR and the National Science Foundation provided support.
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