Finite-size analysis of Schulz-Shastry-Luttinger liquids in saturated spin-1/2 zigzag chains reveals anyonic signatures under periodic and Dirichlet boundary conditions via Friedel oscillations, persistent currents, and spin correlations.
One-dimensional quantum wires: A pedestrian approach to bosonization
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abstract
In these lecture notes we will consider systems in which the motion of electrons is confined to one dimension (1D). In these so-called quantum wires electron-electron interaction effects play an important role because the restricted dimensions enhance the scattering between the electrons and completely destroy the quasi-particle picture. New density wave excitations appear that are described by bosonic operators. Here, we will develop this bosonic description, following a pedestrian approach which does not require any previous knowledge in field theory methods. These notes therefore serve as a detailed introduction into bosonization by carefully deriving the most fundamental formulas.
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cond-mat.quant-gas 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Finite-size effects in Schulz-Shastry-Luttinger models for determining anyonic signatures in 1d spin chains
Finite-size analysis of Schulz-Shastry-Luttinger liquids in saturated spin-1/2 zigzag chains reveals anyonic signatures under periodic and Dirichlet boundary conditions via Friedel oscillations, persistent currents, and spin correlations.