Entropy2_2_3.zip
Entropy obtained from numerical solution of the TBA equations (\ref{so5_dressedeinteq}) for $p_0=2+1/3$ and $H_1\equiv 0$ as a function of the field $zH_2/M_{0}$ for $T=0.02M_0$. For fields large compared to the $[1,1]$-soliton mass, $zH_2\gg 2M_0$, the entropy approaches the expected analytical value (\ref{so5_Entropy_CFT2}) for a field theory with a free bosonic sector and a $Z_{SO(5){N_f}}/Z{SU(2){N_f}}$ parafermion sector propagating with velocities $v{[1,1]}$ and $v^{(2)}_{pf}$, respectively (full red line). For magnetic fields $zH_2<2M_0$ and temperature $T\ll 2M_0$ the entropy is that of a dilute gas of non-interacting quasi-particles with degenerate internal degree of freedom due to the anyons.
Cite this as
Daniel Borcherding, Holger Frahm (2019). Dataset: Condensates of SO(5)_N anyons. Resource: Entropy2_2_3.zip. https://doi.org/10.25835/0007088
DOI retrieved: June 25, 2019
Additional Information
Field | Value |
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Created | unknown |
Last updated | October 14, 2021 |
Format | application/zip |