The interplay between superconductivity (SC) and spin/charge density wave (DW) in organic metals shows many similarities to high-$T_c$ superconductors. It also contains many puzzles, for example, the anisotropic SC onset observed and the severalfold increase of the upper critical field $H_{c2}$ in the coexistence region, as well as the microscopic origin of SC/DW phase separation there. In this paper, by the direct calculation of the Landau expansion for DW free energy, we argue that the phase transition between DW and metallic/SC phase in organic superconductors goes by first order at low enough temperature, which explains the spatial segregation of DW and SC at large length scale, consistent with experimental observations. This first-order phase transition is not directly related to SC and happens even above the SC transition temperature.
[1]
R. Claessen,et al.
Physics in one dimension
,
2013,
Journal of physics. Condensed matter : an Institute of Physics journal.
[2]
Alexander L. Efros,et al.
Physics and Geometry of Disorder: Percolation Theory
,
1987
.
[3]
N. Maeda.
Nucleation Theory
,
2020,
Nucleation of Gas Hydrates.
[4]
K. Baier.
Field Theoretic Method In Phase Transformations
,
2016
.
[5]
H. Alloul.
Introduction to Superconductivity
,
2011
.
[6]
G. Grüner,et al.
Density Waves In Solids
,
1994
.