Why the second quantization Hamiltonian works?

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MichPod
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I am puzzled by the fact that a "single-particle" Hamiltonian (in the annihilation and creation operator form) may be used for a multi-particle case (non-interacting particles) or that (only) a "two-particle" Hamiltonian (in the annihilation and creation operator form) may be used for a multi-particle case of many (pair-) interacting particles.

I'd like to learn more what ideas stay behind this i.e. why a two-particle Hamiltonian may be used so directly for a multiple-particle case. Is it just a coincidence, a trick, or there is some reason/theory/formalism behind this?
 
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A single-particle Hamiltonian has a representation on ##N##-particle space for all values of ##N##. The annihilation and creation operators act on the corresponding Fock space, which is the direct sum of all ##N##-particle spaces. The single-particle Hamiltonian has a representation there, too.
 
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