IdealPhotonics' OCT imaging system is a non-contact, high-resolution 3D imaging technology based on the principle of low-coherence interferometry. Utilizing a near-infrared light source (typical wavelength 800-1300nm) and a Michelson interferometer structure, it achieves micrometer-level axial resolution (1-15μm) and millimeter-level penetration depth (2-3mm). Its innovative "frequency domain detection technology" increases the scanning speed to tens of thousands of scans per second, making it a core tool in clinical and research fields such as retinal disease diagnosis (visualization of layered structures), cardiovascular intervention (plaque component identification), and early skin cancer detection (precise boundary definition).Including axial resolution (1-15μm), scan speed (10-400kHz A-scan), penetration depth (2-3mm), and sensitivity (>100dB), its innovative "full-frequency domain interferometry" and "adaptive optics correction" technologies improve the signal-to-noise ratio to 110dB. It redefines the performance limits of in vivo tissue microscopy imaging in retinal layer imaging (thickness measurement accuracy ±2μm), coronary artery plaque identification (fiber cap <65μm detection), and skin tumor boundary delineation (0.1mm³ lesion identification).