Pairing induced by CDW fluctuations: the case of superconductivity in TiSe₂

We theoretically studied the modes and spectrum of fluctuations of the CDW in TiSe₂ using a model that describes its CDW state as a result of the intrinsic excitonic instability in TiSe₂. The charge carriers are electrons within the CDW-renormalized conduction band (CDW quasiparticles). A calculation of the effective action for the CDW fluctuations shows the presence of gapless phase modes and gapped amplitude modes. Upon integrating out these fluctuations, we find that the amplitude fluctuations induce attractive pairing between the CDW quasiparticles resulting in s-wave superconductivity. A subsequent mean-field phase diagram of both CDW and superconducting critical temperatures as a function of doping reveals a dome-shaped superconducting phase coexisting with CDW in the near-commensurate regime, in agreement with the experimental phase diagram.