1. Antimatter gravity experiment
- Author
-
Jordan B. Camp, Timothy W. Darling, and Ronald E. Brown
- Subjects
Nuclear physics ,Physics ,Nuclear and High Energy Physics ,Gravity (chemistry) ,Acceleration ,Large Hadron Collider ,Gravitational field ,Antiproton ,Electric field ,Antimatter ,Measure (physics) ,Physics::Accelerator Physics ,Instrumentation - Abstract
An experiment is being developed to measure the acceleration of the antiproton in the gravitational field of the earth. Antiprotons of a few MeV from the LEAR facility at CERN will be decelerated, captured, cooled to a temperature of about 10 K, and subsequently launched a few at a time into a drift tube where the effect of gravity on their motion will be determined by a time-of-flight method. Development of the experiment is proceeding at Los Alamos using normal matter. The fabrication of a drift tube that will produce a region of space in which gravity is the dominant force on moving ions is of major difficulty. This involves a study of methods of minimizing the electric fields produced by spatially varying work functions on conducting surfaces. Progress in a number of areas is described, with emphasis on the drift-tube development.
- Published
- 1991