We study the d-wave (spin two) superconductors through its dual gravitational description using AdS/CFT duality with finite temperature. To give the anisotropic nature of spectral function, we introduce the Majorana coupling in the neutral blackhole metric without back reaction. We find that the spectral function is indeed anisotropically gapped. At low temperature or strong Majorana coupling, the spectral function shrinks to four nodal points. At high temperature or weak Majorana coupling, the spectral function is partially gapped and generates fermi arc. Also we consider the effect of the dirac mass and there is a phase difference between the condensate fields, that is the d+id scenario. The dirac mass term will cause the spectral function to shrink or to expand with respect to the origin in the momentum space. In the d+id scenario, we find the s-wave and d-wave mixing in the spectral function.