In the half-filling sector, the eigenvalues of ˆMrange from−L/4toL/4in integer steps, whereas across all sectors, the eigenvalues range from−L/4toL/4inhalf-integer steps

This givesΛ( ˆM) =L/2

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Charge Transport Capacity as a Probe of Resonances in Models of Many-Body Localization

cond-mat.dis-nn · 2026-04-20 · unverdicted · novelty 6.0

Charge transport capacity grows with system size in numerically accessible interacting Anderson chains because many-body resonances become more probable, indicating that short-ranged resonances have not yet converged and may contribute to apparent thermalization.

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Charge Transport Capacity as a Probe of Resonances in Models of Many-Body Localization cond-mat.dis-nn · 2026-04-20 · unverdicted · none · ref 3
Charge transport capacity grows with system size in numerically accessible interacting Anderson chains because many-body resonances become more probable, indicating that short-ranged resonances have not yet converged and may contribute to apparent thermalization.

In the half-filling sector, the eigenvalues of ˆMrange from−L/4toL/4in integer steps, whereas across all sectors, the eigenvalues range from−L/4toL/4inhalf-integer steps

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