How Does an Micro Optics Work?
Micro Optics Overview
Why Use Micro Optics?
Manufacturing Micro Optics
Micro Optics from BO- GLASS Optics
Micro-optics is a field corresponding to macro-optics. This field mainly utilizes advanced micromachining processes. Some new materials, previously unexploited, were used to create the optics. This reduces the size of our traditional optical devices so that they can maintain their original optical properties. In turn, the application fields can be broadened and used in some microelectronic systems. Due to the new manufacturing precision and volume, some new application areas have been discovered in the microscopic field. Micro-optics has relatively broad development prospects and applications. It has important applications in aerospace, astronomy, and biomedicine.
BO GLASS is an optical glass manufacturer with a history of more than 20 years. Since its establishment, BO GLASS’s optical engineers have been developing various high-quality optical equipment for customers. We always maintain advanced processing technology and provide optical components that meet customer needs.
BO GLASS produces a variety of micro prisms. Mainly include micro triangular prisms, micro right-angle prisms, micro Dove prisms, and some customized micro prisms. The correct prism can be selected to invert and change the direction of the image according to the customer’s specific needs. Coating services are also available. Make sure we meet product requirements.
In addition, we also produce microlens arrays, which have important applications in some lighting applications and fiber coupling. It is also often found on medical microscopes.
We still maintain excellent production quality for microlenses. Our customers widely use them in some laser applications such as diodes. We can also coat the curved surfaces of microlenses according to your requirements. Used to achieve better optical performance.
As the name suggests, micro-optics is a discipline opposite to macro-optics. Its optical devices usually use advanced processing technology to have smaller sizes and precise surfaces. Practical applications usually follow the same basic physical principles as macroscopic optical devices. Widely used in many industries.
Because micro-optical devices usually use more precise processing technologies and new materials, they have smaller sizes and utilize some precision manufacturing technologies in the optoelectronic field. It is used in photoelectric systems and plays an important role as some key parts. It also includes laser systems, imaging systems, and some precision lenses.
In optics, we usually divide optical equipment into microarrays, microlenses, micro prisms, micro optical mirrors, etc. The classification of the main body is similar to the classification of optical devices in macro optics.
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