Light used to capture anti-matter

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The proposal aims to capture anti-matter using light traps, as traditional magnetic or electric fields are limited to charged anti-particles. The concept relies on the ability of light to exert force on particles, with a focus on capturing anti-atoms. Suggestions include exploring optical tweezers and magneto-optical traps (MOTs), which have been effective in trapping atoms for over 15 years. Additionally, there are existing plans for trapping antihydrogen using magnetic methods. The discussion highlights the innovative approach of using light in anti-matter research.
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I am planning to do a proposal about capturing anti-matter and containing it by creating a trap with light. I figured I want to use light because if I use magnetic or electric fields then I would only be able to capture charged anti-particles. My goal is to capture anti-atoms by using a light trap because i know that light can exert a force upon a particle. I need to know if this works or if anyone here can give me any suggestions or comments. Thanks.
 
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This is not my area of research (or particular interest, for that matter) so I cannot be of great help. But what you want to make sounds a lot like optical tweezers, so maybe searching for that will give you some inspiration.
 
As of 2000, this group had plans to trap antihydrogen using a purely magnetic trap:
http://www.mpq.mpg.de/~haensch/antihydrogen/spectroscopy.html

Magnetic fields will exert a force on any atoms (or anti-atoms) that have a magnetic dipole moment.

Magneto-optical traps, or MOTs, have been used to trap atoms for perhaps the last 15 years. A google search produces many hits:
http://www.google.com/search?hl=en&q=magneto-optical+trap&aq=1&oq=magneto-opti
 
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