Different Ways of Trapping A Single Atom?

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Different methods for trapping a single atom include using magnetic fields, crystal lattices, and Bose-Einstein Condensates, which utilize wave harmonics and laser cooling to maintain atomic positions. Magnetic confinement is particularly important for containing antimatter to prevent dangerous reactions with normal matter. The feasibility of isolating a single atom remains a complex topic, with some participants expressing skepticism about its practicality. The discussion highlights the challenges and nuances of atomic manipulation in quantum mechanics. Understanding these concepts is essential for advancing research in atomic physics.
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What are the different ways that have been used to keep a single atom in a specific location?
 
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Magnetic fields are probably the most useful way.
Then again an atom can easily be well locked into a specific location within a larger structure such as a crystal.
 
Ryan Reed said:
What are the different ways that have been used to keep a single atom in a specific location?
This makes no sense because it is impossible.
 
Omega0 said:
This makes no sense because it is impossible.

Can you please elaborate?
 
A Bose-Einstein Condensate keeps many atoms in specific locations by means of wave harmonics and laser cooling. Semiconductors use atoms "arranged" in a crystal lattice like rootone mentioned. Magnetic confinement is used to contain antimatter, because if it comes in contact with normal atoms... Boom! As far as a "single atom" being isolated from any other atoms, I can't think of any good examples.
 
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Frank Silver said:
Can you please elaborate?
Nothing more to say about the reply of jerromyon: Thanks. You expressed it perfectly. Just one little critics: If there is a good example for a single paricle quantum mechanics is gone to heaven..
To anyone: I recommend "Feynman", part 3 for the basic understaning.
 
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Thread 'Need help understanding particle physics and quantum physics'

So I know that electrons are fundamental, there's no 'material' that makes them up, it's like talking about a colour itself rather than a car or a flower. Now protons and neutrons and quarks and whatever other stuff is there fundamentally, I want someone to kind of teach me these, I have a lot of questions that books might not give the answer in the way I understand. Thanks
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