Newport MKS Datasheets for Collimators
Collimators are optical lens assemblies that take divergent or convergent incoming light rays and produces parallel light output.
Collimators: Learn more
| Product Name | Notes |
|---|---|
| The F-C5-F2-1310 Collimator is designed to accept FC type fiber connectors and collimate a 1310 nm beam exiting a single-mode fiber to a 2.0 mm beam. Conversely, a laser beam... | |
| The F-C5-F2-1550 Collimator is designed to accept FC type fiber connectors and collimate a 1550 nm beam exiting a single-mode fiber to a 2.0 mm beam. Conversely, a laser beam... | |
| The F-C5-F2-543 Collimator is designed to accept FC type fiber connectors and collimate a 543 nm beam exiting a single-mode fiber to a 2.0 mm beam. Conversely, a laser beam... | |
| The F-C5-F2-780 Collimator is designed to accept FC type fiber connectors and collimate a 780 nm beam exiting a single-mode fiber to a 2.0 mm beam. Conversely, a laser beam... | |
| The F-C5-F3-1310 Collimator is designed to accept FC type fiber connectors and collimate a 1310 nm beam exiting a single-mode fiber to a 2.8 mm beam. Conversely, a laser beam... | |
| The F-C5-F3-543 Collimator is designed to accept FC type fiber connectors and collimate a 543 nm beam exiting a single-mode fiber to a 3.0 mm beam. Conversely, a laser beam... | |
| The F-C5-F3-780 Collimator is designed to accept FC type fiber connectors and collimate a 780 nm beam exiting a single-mode fiber to a 3.0 mm beam. Conversely, a laser beam... | |
| The F-C5-S2-1310 Collimator is designed to accept SMA type fiber connectors and collimate a 1310 nm beam exiting a single-mode fiber to a 2.0 mm beam. Conversely, a laser beam... | |
| The F-C5-S2-543 Collimator is designed to accept SMA type fiber connectors and collimate a 543 nm beam exiting a single-mode fiber to a 2.0 mm beam. Conversely, a laser beam... | |
| The F-C5-S2-780 Collimator is designed to accept SMA type fiber connectors and collimate a 780 nm beam exiting a single-mode fiber to a 2.3 mm beam. Conversely, a laser beam... | |
| The F-C5-S3-1310 Collimator is designed to accept SMA type fiber connectors and collimate a 1310 nm beam exiting a single-mode fiber to a 2.8 mm beam. Conversely, a laser beam... | |
| The F-C5-S3-543 Collimator is designed to accept SMA type fiber connectors and collimate a 543 nm beam exiting a single-mode fiber to a 3.0 mm beam. Conversely, a laser beam... | |
| The F-C5-S3-780 Collimator is designed to accept SMA type fiber connectors and collimate a 780 nm beam exiting a single-mode fiber to a 3.0 mm beam. Conversely, a laser beam... | |
| The F-COL-62-13 Fiber Pigtailed Collimator consists of a multimode 62.5/125 μm fiber pigtail precisely aligned to a Gradient Index (GRIN) lens assembly, which is ideal for collimated light applications. The... | |
| The F-COL-62-13-FCPC Fiber Pigtailed Collimator consists of a multimode 62.5/125 μm FC/PC connectorized fiber pigtail precisely aligned to a Gradient Index (GRIN) lens assembly, which is ideal for collimated light... | |
| The F-COL-62-15 Fiber Pigtailed Collimator consists of a multimode 62.5/125 μm fiber pigtail precisely aligned to a Gradient Index (GRIN) lens assembly, which is ideal for collimated light applications. The... | |
| The F-COL-9-13 Fiber Pigtailed Collimator consists of a single-mode 9/125 μm fiber pigtail precisely aligned to a Gradient Index (GRIN) lens assembly, which is ideal for collimated light applications. The... | |
| The F-COL-9-13-FCAPC Fiber Pigtailed Collimator consists of a single-mode 9/125 μm FC/APC connectorized fiber pigtail precisely aligned to a Gradient Index (GRIN) lens assembly, which is ideal for collimated light... | |
| The F-COL-9-13-FCUPC Fiber Pigtailed Collimator consists of a single-mode 9/125 μm FC/UPC connectorized fiber pigtail precisely aligned to a Gradient Index (GRIN) lens assembly, which is ideal for collimated light... | |
| The F-H10-IR-APC Collimator is designed specifically for single-mode and polarization maintaining (PM) fiber applications in the 1000 to 1700 nm range, which need to generate a clean Gaussian Beam at... | |
| The F-H10-IR-FC Collimator is designed specifically for single-mode and polarization maintaining (PM) fiber applications in the 1000 to 1700 nm range, which need to generate a clean Gaussian Beam at... | |
| The F-H10-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 F-H10-NIR-FC 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 F-H10-VIS-FC Collimator is designed specifically for single-mode and polarization maintaining (PM) fiber applications in the 375 to 600 nm range, which need to generate a clean Gaussian Beam at... | |
| The F-H5-IR-APC Collimator is designed specifically for single-mode and polarization maintaining (PM) fiber applications in the 1000 to 1700 nm range, which need to generate a clean Gaussian Beam at... | |
| The F-H5-IR-FC Collimator is designed specifically for single-mode and polarization maintaining (PM) fiber applications in the 1000 to 1700 nm range, which need to generate a clean Gaussian Beam at... | |
| 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 F-H5-NIR-FC 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 F-H5-VIS-APC Collimator is designed specifically for single-mode and polarization maintaining (PM) fiber applications in the 375 to 600 nm range, which need to generate a clean Gaussian Beam at... | |
| The F-H5-VIS-FC Collimator is designed specifically for single-mode and polarization maintaining (PM) fiber applications in the 375 to 600 nm range, which need to generate a clean Gaussian Beam at... | |
| The LC-075 10x Laser Collimator is optimized specifically for low wavefront distortion and diffraction limited performance at infinity focus in the visible wavelength region. The Galilean optical system is antireflection... |