Main products are Optical Windows, Mirrors, Prisms, Lenses, waveplates and Color Filters,

Optical devices work by manipulating light to achieve various purposes, such as magnifying images, focusing light, or filtering specific wavelengths. The basic principles behind how optical devices work depend on the specific device and its intended function, but some common principles include:

1. Reflection: Optical devices such as mirrors and lenses manipulate light through reflection. Mirrors reflect light according to the law of reflection, which states that the angle of incidence (the angle at which light strikes the surface) is equal to the angle of reflection (the angle at which light bounces off the surface). Lenses, on the other hand, use curved surfaces to bend and focus light rays.

2. Refraction: Refraction occurs when light passes from one medium to another with a different optical density, causing the light rays to change direction. Optical devices like lenses and prisms utilize refraction to bend and focus light. Lenses, for example, can converge (focus) or diverge light rays depending on their shape and curvature.

3. Diffraction: Diffraction refers to the bending of light waves around obstacles or through narrow openings. Optical devices such as diffraction gratings and optical filters exploit diffraction to manipulate light by separating it into its component wavelengths or by selectively allowing certain wavelengths to pass through.

4. Interference: Interference occurs when light waves interact with each other, leading to the reinforcement or cancellation of specific wave patterns. Optical devices like interferometers utilize interference phenomena to measure distances, detect small changes in position, or analyze the properties of light waves.

5. Polarization: Polarization refers to the orientation of light waves as they propagate through space. Optical devices such as polarizers and waveplates exploit polarization effects to selectively filter or manipulate the orientation of light waves, allowing for applications such as glare reduction, 3D imaging, and optical communications.

Overall, optical devices work by harnessing the properties of light, such as reflection, refraction, diffraction, interference, and polarization, to achieve a wide range of functions in various fields, including imaging, communication, spectroscopy, and sensing.