Objective lenses, essential in optical instruments, require aberration correction to optimize performance and influence field of view.
Objective lenses, essential in optical instruments, require aberration correction to optimize performance and influence field of view.
A beam splitter is applied in various fields, from teleprompters to robotics. Without it, a lot of technology you know would not function. So, how does a beam splitter work? What are its types and applications?
At Avantier, we use Zemax for designing, analyzing, and optimizing optical systems, such as lenses, objectives, cameras, and other optical devices.
Reverse optical engineering, also known as reverse engineering in optics, is the process of taking an existing optical component or system, analyzing it, and replicating it to create a similar or improved product.
In order to ensure the seamless functioning of a high-performance optical system, it is essential to establish a foundation comprising suitable mechanical components that are well-maintained and accurately aligned.
The electromagnetic spectrum encompasses a broad range of wavelengths, including Gamma rays, X rays, ultraviolet, visible light, infrared, and radio waves, arranged in order from shorter to longer wavelengths.
In microscopes, objective lenses play a crucial role as the most complex and important component. These lenses, designed as multi-element lenses located closest to the specimen
Manufacturing optical components faces challenges in achieving full clear apertures meeting specifications.
The camera lens captures the extent of the observable area in a single shot, known as the Field of View (FOV). This encompasses what one can see through the eyes or an optical device.
Optical Filters are used in AR/VR/MR (Augmented Reality, Virtual Reality, and Mixed Reality) to enhance the visual experience and make it more realistic. Here are a few examples of how filters are used in these fields