Vision is one of the important physiological functions to perceive surrounding information for most animals, and discriminating colors is essential for a visual system to seeing color. For a better discrimination, several strategies have been developed to enhance spectral resolution in the visual system of butterfly, such as narrowing spectral sensitivity, shifting the peak sensitivity, or diversifying spectral types of photoreceptor. Troides butterflies are presumably tuned the properties of the photoreceptor sensitivity spectra for intra-species recognition. Electrophysiological recording in the compound eye of Troides aeacus formosanus showed that there are 9 spectral types of photoreceptor with peak sensitivities at 360 nm, 390 nm, 440 nm, 510 nm, 540 nm, 550 nm, 580 nm, 600 nm, and 620 nm. The spectral sensitivities of some photoreceptors do not match to those predicted spectra of visual pigments, when fitting the theoretical pigment absorption curves to the recorded spectral sensitivities. The spectral tuning and diversification appear to the optical interaction of the fluorescing and perirhabdomal pigments, which are known to function as spectral filters in the compound eyes of some butterfly species. In addition to the optical filtering effects, negative-going responses were observed when gave light stimulation with the specific wavelengths, indicating that there are strong antagonistic interactions in the Troides retina. To explore the origin of the negative-going responses, the time-to-peaks of temporal impulse responses elicited by brief flashes with the specific wavelengths were compared. The result indicates that the inhibitory current could not be attributed to the extracellular field current but the direct current flow within the photoreceptor itself. The spectral opponency at the level of photoreceptor could subserve the Troides color vision, however further study on this issue is needed. The variety of spectral receptor types caused by the pigments filtering effects and electrical interactions in the Troides eye suggest that the Troides butterfly has a good ability on color discrimination.