CERN traps antimatter for long enough to do serious science on it
Earlier this year, a research collaboration at CERN announced that it had created a few dozen atoms of antihydrogen, the antimatter equivalent of the more familiar hydrogen atoms. These anti-atoms were kept in existence for just under 200 milliseconds before they annihilated in collisions with the container walls. Now, the same team is back with the announcement that it has created hundreds of atoms of antihydrogen, some of which were kept around for over 15 minutes—long enough to start contemplating doing some serious science with them.
The trap used to catch the antihydrogen is the same one used in the last experiment. It uses superconducting magnets to keep the antiatoms away from the container walls, taking advantage of the tiny magnetic moment created by the spatial distance between the antiproton nucleus and the positron (antielectron) orbiting it. The differences are so tiny that the trap will only work if the antihydrogen has an energy of 50μeV (micro electron Volt), which makes for quite a challenge, since the antiprotons start the process at 3keV. The big increase in the number of trapped atoms has largely come about through better ways of slowing down and cooling the starting materials.
The antiprotons are generated by bombarding a static target with a proton beam. The output is gathered and fed into a bit of hardware that is a bit unusual at CERN: a particle decelerator . These are slowed and cooled further by sending them through a cloud of cold electrons, after which some antiprotons are allowed to evaporate off, carrying even more energy with them; further evaporative cooling takes place after mixing with an excess of positrons. The team behind the work even figured out a way to push the positrons into a cooling chamber while imparting as little excess energy as possible.
Even so, most of the 6,000 antihydrogen atoms that are generated by a typical mixing are too energetic and bump into the trap's walls, ending their short lifetimes. Just a bit over half of the typical experiments result in an atom getting caught in the trap and being available for further studies.
It's not just the kinetic energy of the atoms that limits our ability to study them. The positrons are initially bound very weakly in the outer orbitals of the antiatom, and take a bit of time to reach the ground state by emitting photons. So keeping them around for longer is essential if we're going to study antihydrogen in its native state. Fortunately, the authors calculate that over 99 percent of the antiatoms will be in the ground state in a half a second, and there's so little gas contaminating the trap that the antiatoms should survive for hundreds of seconds on average.
Uses For Magnets - News
Toyota Motor (NYSE:TM), for example, is working on an induction motor for electric cars that uses fewer rare earth magnets. Another big consumer, the chemical industry, is doing something similar. Albemarle (NYSE:ALB) recently introduced a new line of
It uses superconducting magnets to keep the antiatoms away from the container walls, taking advantage of the tiny magnetic moment created by the spatial distance between the antiproton nucleus and the positron (antielectron) orbiting it.
In the simplest form, the setup is composed of one or more permanent magnets mounted to the end of a shaft that is connected to an electric motor. Instead of having the poles of these magnets facing a pick up coil (perpendicular to it),
Busch Gardens is touting its new Cheetah Hunt roller coaster that uses the force of repelling magnets to launch riders from zero to 60 mph in a matter of seconds, three different times during the ride. Opening this summer, Cheetah Hunt will be the
Toyota Motor (NYSE: TM), for example, is working on an induction motor for electric cars that uses fewer rare earth magnets. Another big consumer, the chemical industry, is doing something similar. Albemarle (NYSE: ALB) recently introduced a new line
PhotoBlog - New 'Cheetah Hunt' roller coaster uses powerful ...
This Monday, May 23 image courtesy of Busch Gardens Tampa shows the Cheetah Hunt coaster at Busch Gardens, Tampa, Fla. Busch Gardens is touting its new Cheetah Hunt roller coaster that uses the force of repelling magnets to launch riders from zero to 60 mph in a matter of seconds, three different times during the ride. Opening this summer, Cheetah Hunt will be the longest of the park’s coasters with 4,429 feet of track.
Uses For Magnets - Bookshelf
Magical Uses for Magnets
Magnetism in medicine, a handbook
1.1.5 Other Medical Uses of Magnets and Magnetism During the past 20 years, the medical use of magnets has spread to fields as diverse as dentistry, ...Essentials of physics
CHAPTER XXm. PROPERTIES AND USES OF MAGNETS.-LAWS OF ACTION. What are magnets and their varieties ? Electricity is of three kinds — magnetism, statical, ...Opportunities in high magnetic field science
OTHER SCIENTIFIC USES OF HIGH-FIELD MAGNETS High-field magnets are critical components of instruments used in several research areas that so far have been ...Magnets
Magnet Thinking About Thinking About Card 2 Uses of Magnets Think about the important uses and functions of magnets. Make a list of some these uses. ...Daily Posts Directory
Magnet - Wikipedia, the free encyclopedia
For a description of magnetic materials, see magnetism. For other uses, see Magnet ... For a bar magnet, the direction of the magnetic moment points from ...
Industrial Uses of Magnets
Introduction to how magnets work, the history of magnets, types of magnets, Uses of magnets and Electromagnetism
The Uses of Magnets
Let's get to know more on uses of magnets. The Uses of Magnets. ... Magnets are also commonly used in compass needles which are helpful to travelers for directions. ...
Uses for magnets - Hack a Day
Sometimes we forget just how useful magnets can be. Sure, we use them in some projects, but usually we just pull them apart for our amusement. Evil mad scientist ...
Uses of Magnets
There are many uses for magnets and magnetism in our modern culture, and in many ways, magnetic fields in general are looking to be the way of the future. ...