0950931003 is a compound lens which consists of two far-field achromatic doublets. It is a popularly used and versatile compact assembly featuring enhanced resolution over a wide range of working distances. It is widely used in various applications ranging from beam imaging to narrow and high power beam collimation. This article examines its application field and working principle.
0950931003 is mainly used for imaging, projection and collimation. It is suitable for high power laser applications due to its exceptional performance. It is most suitable when the focal length of the lens system needs to be short or when extremely high power laser beams are to be collimated. Due to its excellent performance, it has been used for numerous applications like microscopy, optoelectronic inspection systems, research-grade optical systems and laser power control.
The 0950931003 is an advanced compound doublet design. It consists of two achromatic elements cemented together. It features a broadband 15.56 mm of focal length. Its performance is exceptional for beams in the range between 1-250 mm of working distance. It provides a high degree of wavefront quality when used with beams up to 4 mRad of beam divergence.
The 0950931003 is an ideal choice for applications with predictable requirements since its focal length remains unchanged over an extended range of working distances. It provides superior collimation even when mounted in misaligned positions and offers a great deal of flexibility when adapting it to different laser powers or beam diameters. It typically provides a higher degree of wavefront quality compared to other lens families.
The working principle of the 0950931003 is based on the achromat design. It features a low-index air space between two lenses of different refractive indices. Due to this, the light rays are correctly brought to a focus while the focal length remains constant. The lens also features a superior optical performance due to its rotational and axial correction of wavefront aberration.
The 0950931003 is widely used in imaging, projection, and collimation applications which require a higher degree of wavefront quality. Due to its exceptional optical and mechanical performance, it is suitable for both small- and large-scale applications. Most importantly, it can be applied both in beam forming and beam shaping roles. This makes it an ideal choice for even the most demanding applications with high accuracy.