Would cooling matter and antimatter to as close to Absolute Zero as possible allow them to coexist?
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NO.....
As you can NEVER CHANGE the ATOMIC PROPERTIES of any particle by means of PHYSICAL METHODS [like CHANGING TEMPERATURE , even to extreme hot or cold].
Therefore, even if you cool down matter and antimatter, an ELECTRON will remain an ELECTRON, and a POSITRON will remain a POSITRON.
And so, THEY CAN'T CO-EXIST, as you might know that what is the result of fusion of matter and antimatter— A BANG!!
And all that is the result of fusion of the ELECTRONS in MATTER, and POSITRONS in ANTIMATTER.
As you can NEVER CHANGE the ATOMIC PROPERTIES of any particle by means of PHYSICAL METHODS [like CHANGING TEMPERATURE , even to extreme hot or cold].
Therefore, even if you cool down matter and antimatter, an ELECTRON will remain an ELECTRON, and a POSITRON will remain a POSITRON.
And so, THEY CAN'T CO-EXIST, as you might know that what is the result of fusion of matter and antimatter— A BANG!!
And all that is the result of fusion of the ELECTRONS in MATTER, and POSITRONS in ANTIMATTER.
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0
Answer:
I've thought a little bit on it and now I think it wouldn't have a ... and positronium disappear close to Absolute zero.
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