The strong lensing gravitational wave (SLGW) is a promising transient phenomenon that encompasses a wealth of physics. However, the long-wave nature of gravitational waves (GW) poses a significant challenge in identification of its host galaxy. To tackle this challenge, we propose a multi-messenger method triggered by the wave optics effect of microlensing. The microlensing diffraction/interference fringes introduce frequency-dependent fluctuations in the waveform. Our method has three steps. First, we reconstruct the GW waveforms by using the template-independent and template-dependent methods. The mismatch of two reconstructions serves as an indicator of SLGWs. This step can identify $10\%$ SLGWs. Second, we pair the SLGW's multi-signals by employing the sky localization overlapping. Third, we find the host galaxy by requiring the consistency of time delays between Galaxy-Galaxy strong lensing (GGSL) and SLGW. With the help of CSST and JWST, one can identify $1$ quadruple-image system in roughly $3$ years.
Comment: 21 pages, 4 figures, 7 supplementary figures. Comments are welcome