Optical prisms are vital components made of transparent materials that utilize precise angles and geometric shapes to analyze, refract, and reflect light. These prisms play a significant role in manipulating light for various applications, including beam steering, dispersion, and image rotation. Optical prisms come in different types and configurations, with each type designed to perform specific functions based on their geometry and optical properties. Common types of prisms include right-angle prisms, equilateral prisms, roof prisms, and dove prisms, each with unique characteristics and advantages. When selecting an optical prism, several parameters need to be considered. Optic size determines the physical dimensions of the prism, influencing the amount of light that can pass through or interact with the prism. The wavelength compatibility ensures that the prism performs optimally within the desired wavelength range, allowing for efficient light manipulation. The material used for the prism is another crucial factor. Different materials, such as glass, quartz, and plastic, have varying refractive indices and dispersion properties, enabling specific applications. For example, glass prisms are commonly used for visible light applications due to their excellent optical properties. Other factors to consider may include environmental robustness, thermal stability, and surface quality. Environmental robustness ensures that the prism can withstand variations in temperature, humidity, and other conditions. Thermal stability refers to the prism's ability to maintain its optical properties under varying temperature conditions. Surface quality measures how smooth and flat the prism's surfaces are, impacting the quality of the transmitted or reflected light. In summary, optical prisms are crucial devices that utilize precise angles and geometric shapes to manipulate light in various ways. They can be selected based on parameters such as prism type, optic size, wavelength compatibility, material, environmental robustness, thermal stability, and surface quality. Their wide range of applications includes spectroscopy, imaging systems, laser technology, and more.