The design, manufacture and optical properties of core-shell micro-fiber are studied.The core-shell micro-fibers with copper, silver, and gold coating are produced.The micro-fibers are irradiated by white light and laser light sources with different wavelengths (405nm, 532nm, and 671nm).Then, the photonic nanojets can be generated on the micro-fiber surface.The finite difference time domain method (FDTD) and ray tracing method are used for simulation.The characteristics of photonic nanojets are simulated by FDTD with different shells and incident wavelengths.The propagation of light beam in the core-shell micro-fibers is calculated by ray tracing.The diameter of micro-fiber is reduced by chemical etching.The metal shells are sputtered on the micro-fiber surfaces by sputtering.The optical properties of core-shell micro-fiber are measured by optical measurement system.The intensity and full width at half maximum of measured images are analyzed by computer programs.Comparing simulation with experimental results, the properties of photonic nanojets can be changed by different metal shells.The surface profiles of nano-grating are measured by using photonic nanojets.