According to previous literatures, the shape of the microdisk has a considerable effect on the generation of photonic nanojets. In this research, photonic nanojets produced by non-spherical microdisks in two dielectric materials (silica and polydimethylsiloxane) at three laser sources (red, green and blue lasers) are studied. The spherical microdisks of different diameters are truncated in the same width of non-spherical microdisks for theoretical calculation and experimental measurements. In theoretical calculations, we use finite-difference time-domain method to simulate photonic nanojet distributions in various widths of non-spherical microdisks. In the manufacturing process, we use semiconductor process and replica molding technology to fabricate non-spherical microdisks in two dielectric materials. In the experimental measurements, we use a high sensitivity optical microscope to observe the real images of photonic nanojets. The key parameters of photonic nanojets are calculated by computer program which include jet focal, full width at half maximum and decay length. The enhancement of focusing effect, focal length and decay length can be controlled by changing the width of the non-spherical microdisks. These nanojet properties can help the future development of the nanoscale optical microscope objectives.