Data for Fig. 4(a) of J. Phys. A 51 (2018) 195001
Entropy obtained from numerical solution of the TBA equations (3.4) for $p_0=2+1/3$ as a function of the magnetic field $H$ for different temperatures. For magnetic fields large compared to the kink mass, $zH\gg M_0$, the entropy approaches the expected analytical value (3.20) for a field theory with a free bosonic and a $Z_{N_f}$ parafermion sector propagating with velocities $v_{\text{Kink}}$ and $v_{pf}$, respectively (full red line). For magnetic fields $zH<M_0$ and temperature $T\ll M_0$ the entropy is that of a dilute gas of non-interacting quasi-particles with degenerate internal degree of freedom due to the anyons (dashed red line).
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Daniel Borcherding, Holger Frahm (2019). Dataset: Signatures of non-Abelian anyons in the thermodynamics of an interacting fermion model. Resource: Data for Fig. 4(a) of J. Phys. A 51 (2018) 195001. https://doi.org/10.25835/0067125
DOI retrieved: April 3, 2019
Additional Information
Field | Value |
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Created | March 18, 2019 |
Last updated | August 4, 2023 |
Format | ZIP |