Physics Asked by lgotta on July 12, 2021
I would like to ask what it means exactly for a many-body system to have a nonzero $n$-particle gap.
If I have a spectrum for each number sector of the Hilbert space for a number conserving Hamiltonian, how is a single particle, pair or $n$-particle excitation defined generically?
And what gap are we targeting (which energy difference)?
I am trying to make sense of statements such as "The system has gapped single particle excitations and gapless pair excitations".
The gap refers to the energy gap between the lowest energy eigenvalue in the $n$-particle sector and the absolute lowest energy eigenvalue across all sectors (which, for a stable Hamiltonian that’s bounded below, lies in the zero-particle vacuum sector of the Hilbert space).
So the statement “The system has gapped single particle excitations and gapless pair excitations" means that the lowest energy eigenvalues in the zero- and two-particle sectors are degenerate (in the infinite-system-size limit), while the lowest energy eigenvalue in the one-particle sector is strictly higher.
Correct answer by tparker on July 12, 2021
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