Bosonization yields an explicit expression for Hall imbalance in N-leg bosonic ladders, with Hall resistance proportional to d(log charge stiffness)/d density for small fields.
Universal Hall Response in Synthetic Dimensions
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abstract
We theoretically study the Hall effect on interacting $M$-leg ladder systems, comparing different measures and properties of the zero temperature Hall response in the limit of weak magnetic fields. Focusing on $SU(M)$ symmetric interacting bosons and fermions, as relevant for e.g. typical synthetic dimensional quantum gas experiments, we identify an extensive regime in which the Hall imbalance $\Delta_{\rm H}$ is universal and corresponds to a classical Hall resistivity $R_{\rm H}=-1/n$ for a large class of quantum phases. Away from this high symmetry point we observe interaction driven phenomena such as sign reversal and divergence of the Hall response.
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cond-mat.quant-gas 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Hall effect in multi-leg bosonic ladders
Bosonization yields an explicit expression for Hall imbalance in N-leg bosonic ladders, with Hall resistance proportional to d(log charge stiffness)/d density for small fields.