IdealPhotonics' multiphoton microscope is a fluorescence imaging system based on nonlinear optical effects (such as two-photon excitation). It utilizes ultrafast lasers (femtosecond pulses) to locally excite fluorescent molecules at the sample focal point (excitation wavelength 800-1300nm), achieving high-resolution (submicron) three-dimensional imaging of deep tissues (>1mm). Its innovative "long-wavelength excitation-short-wavelength emission" mechanism significantly reduces phototoxicity, making it the preferred tool for in vivo neuroscience, tumor microenvironment research, and embryonic development observation.Femtosecond laser wavelength (tunable 800-1300nm), excitation power (10-500mW), axial resolution (0.5-1.5μm), and imaging depth (>1.5mm) are all included. Its innovative "adaptive optics correction" and "phase-locked detection" technologies improve the signal-to-noise ratio to >50dB, breaking through the limitations of traditional microscopy techniques in in vivo brain nerve imaging (millisecond-level capture of neuronal firing), three-dimensional reconstruction of tumor vascular networks (accuracy 0.1μm), and organoid dynamic monitoring (72-hour continuous imaging).