Analytical approach to compute conductivity of p-wave holographic superconductors

In this article we have analytically derived the frequency dependent expression of conductivity and the band gap energy in AdS(4) Schwarzschild background for p-wave holographic superconductors considering Einstein-Yang-Mills theory. We also used the self-consistent approach to obtain the expressions of conductivity for different frequency ranges at low temperature. We then compared the imaginary part of conductivity at the low frequency region. The band gap energy obtained from these two methods seem to agree very well.

Automated summary

In this article, we analytically derived the frequency dependent expression of conductivity and the band gap energy in AdS(4) Schwarzschild background for p-wave holographic superconductors using the Einstein-Yang-Mills theory. We also obtained the expressions of conductivity for different frequency ranges at low temperature using the self-consistent approach and compared the imaginary part of conductivity at the low frequency region. The band gap energy obtained from these two methods showed a high level of agreement.