Fiber Collimators
Four coating regions cover the 350 nm to 2300 nm spectrum. Pigtailed versions are available as well as custom housing, coatings, optical designs or environmental requirements. See our "Large Fiber
Four coating regions cover the 350 nm to 2300 nm spectrum. Pigtailed versions are available as well as custom housing, coatings, optical designs or environmental requirements. See our "Large Fiber
Introduction Collimators are required to transform naturally diverging light-emission from an optical fiber to a parallel beam of light. Most fiber-optic collimators available are designed for thin fibers with low NA.
Besides collimation, these fiber collimators can also be used to focus to a very tight spot at a very large distance or expand to illuminate a larger area. Standard collimators have apertures from 3 mm to 23
The 60FC-L collimators are designed for collimating radiation from optical fibers with high pointing stability and large beam diameters. They are suitable for single
The fiber collimators series 60FC-L are designed for collimating radiation exiting optical fiber cables with high pointing stability and large beam diameters. They
High Power Large Beam Fiber Collimator can be used for high power fiber laser and fiber amplifier. These devices can be used to reduce the power density at output fiber facet.
The F-H5-NIR-APC Collimator is designed specifically for single-mode and polarization maintaining (PM) fiber applications in the 600 to 1000 nm range, which need to generate a clean Gaussian Beam at
The fiber collimators series 60FC-L is designed for collimating radiation exiting optical fiber cables with high pointing stability and large beam diameters. They can also be used in reverse-mode as fiber
Our high-performance pure Gaussian beam fiber collimators are designed and manufactured with special applications in mind ranging from Lidar, Interferometry,
Fiber-optic Collimator To couple light both into and out of an optical fiber, it is essential to have a collimated light beam. With the help of an optical collimator, the divergence of the light beam can be
Reflective Telescopes & Collimators Reflective optical systems help remote sensing, illumination, seeker (detector) characterization and spectral test applications. We
For additional large-beam collimators, please see our line of fixed focus, air-spaced doublet collimators. We also offer a variety of other collimators, including zoom
Thorlabs also offers a range of fixed and adjustable collimation packages for collimating a laser beam from the end of an FC/PC, FC/APC, or SMA connectorized fiber while maintaining diffraction-limited
High-radial-tolerance fiber collimator (HRTFC) has the advantages of low coupling loss, easy assembly, and large spot size. Increasing the spot size can solve the problems of slow beam
Discover large beam fiber collimators at Sherlan Optics. Get reliable performance, high precision, and quality optics designed for advanced applications.
The LBTEK 40 mm EFL achromatic large-aperture fiber collimator is designed for large beam diameters. To minimize losses caused by surface reflections, all
All optics are AR coated to give high transmission. To accom-modate all the different wavelengths that are now available for lasers, the spectrum is divided into 4 different regions.
Standard, UV, RGB and Custom designs Fibre Collimators The Micro Laser Systems'' FC Series of collimators are designed specifically for single mode fibre
A wide variety of fibers and numerical aperture (NA) can be used including singlemode, multimode, or polarization maintaining fibers. Operating wavelengths cover from 350nm to 2000nm and even
It is designed for long distance projection applications such as free space communications and alignment of very large objects. It is also ideal for interferometry, confocal microscopy and
Abstract A Large-tolerance Fiber Collimator (LTFC) consisting of a Thermally Expanded Core Fiber (TECF) and an aspherical lens is designed to solve the problems of low beam coupling
Our Fiber Collimator Calculator, combined with the insights provided in this guide, empowers you to make informed decisions and achieve superior results in your
LightPath® Fiber Optic Collimators are designed so that they can be used in pairs to couple the input and output light of optical devices. Optimum performance for
Most fiber manufacturers define the numerical aperture of their fibers based on the refractive indices of the core and cladding (i.e., NA = [NCO2 - NCL2]1/2). While this definition is useful for step index
The largest fiber collimators are those for high-power multimode fibers as used in laser material processing or for pumping high-power lasers; they also need to be
Large Aperture collimating R-FLEX is a platform that extends the capabilities of the HASO R-FLEX SWIR to large optics and optical surfaces. The output collimated beam size ranges from 30 to 150 mm.
The optical design of the a|AspheriColl allows easy fiber coupling, alignment as well as adjustment of the wavelength without much adjustment effort. Due to larger
All optics are AR coated to give high transmission. Present-ed is the coating range from 1000nm to 1700nm for the pop-ular 1550nm. To accommodate all the different wavelengths that are now
As the main internal structure of FORJ, fiber collimators are mainly used to realize the collimation transmission of optical signals. To achieve precise beam coupling between collimators in
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