MgO:LN, KTP, RPE LN Frequency Conversion Waveguide Chips and Modules

850, 1060, 1300 nm; Core Dia. 50 µm; Cladding Dia. 125 µm; Acrylate Coating; Optional Hermetic Layer; -60 to +180 °C Equipped with mid-temperature acrylate-based coatings, the Corning® ClearCurve® series of multi mode (MM) bend insensitive optical fibers now includes higher temperature and higher bandwidth capability. For use at temperatures up to +180 °C and beyond, these acrylate-based fibers deliver incredible macro bend performance with ease of use and handling – benefiting sensing systems operating in harsh environments.. The ClearCurve multi mode fiber series includes the MM50BI-XMT fiber with mid-temperature acrylate coating as well as the MM50BIH-XMT fiber with mid-temperature acrylate coating and an additional hermetic layer. For mid-temperature single mode fibers please refer to Corning’s ClearCurve single mode fiber series. Key Features: Acrylate-base for Ease of Handling Rated for up to +180 °C Test data available at +200 °C Higher Bandwidths available Hermetic Coating (Optional) for Protection Against Hydrogren-induced Attenuation Increase and Improved Fatigue Resistance Consistent Strength Over Time at Elevated Temperatures Designed to Meet Your Specific Needs: Recommended Min. Bending Radius of 7.5 mm Fully Compliant With ITU-Recommendations G651.1 Compatible with Current Optical Fibers and Practices Applications: Fiber Sensing and Data Transmission with Tight Bend Requirements and/or High Bandwidth Requirements for: Aerospace & Defense, Structural Health Monitoring, Down-Hole Drilling

Focal Length 0.8-22 mm; Numerical Aperture 0.13-0.68; Design Wavelength 405-1550 nm; Outer Lens Diameter 2.400-11.000 mm; Working Distance 0.20-20.41 mm GH Optics’ series of molded lenses are precision molded glass aspheric lenses for applications in the visible and near-infrared (NIR) wavebands, such as small beam collimation, focusing, and fiber coupling. Spherical lenses are relatively easy to manufacture but have disadvantages such as spherical aberrations in many optical applications. Aspheric lenses have clear advantages here – they avoid spherical aberrations due to their principle and can therefore reduce the complexity of both the design process and the resulting optical system. However, the cost and effort involved in the traditional production of aspheric lenses, e.g. using diamond turning, has often prevented the use of this type of lens in cost-sensitive applications. GH Optics manufactures aspheric lenses by molding glass preforms in molds of high precision. The result is affordable aspheric lenses with high, reproducible quality. In addition to a wide range of standard types (see below), GH Optics also manufactures custom aspheric lenses. So if you don’t see the aspheric lens you need in our catalog, we can have it custom built for you. Our optical experts help you defining the best solution and GH Optics’ engineering team can manufacture at off-the-shelf lens prices that you won’t find elsewhere. Four types of glass are available for our series of molded aspheric lenses, all RoHS compliant: Lens Series Glass Type Refractive Index (nd) Abbe Number (νd) CTE dn/dT RoHS Compliance LD D-ZK3 1.586 60.71 7.6×10-6/°C 3.2×10-6/°C yes LE D-ZLaF52La 1.806 40.79 6.9×10-6/°C 6.5×10-6/°C yes LF L-LAL12 1.674 55.00 6.9×10-6/°C 6.5×10-6/°C yes LG D-LaK6 1.690 52.65 6.9×10-6/°C 6.5×10-6/°C yes   Our series of molded aspheric lenses can be coated with a range of visible and NIR coatings, including four standard AR coatings (VA, VB, VC, VQ) featuring average reflectance values of ≤0.6%, ≤0.5%, or even ≤0.25%, for wavelength ranges of 380 nm to 700 nm, 600 nm to 1100 nm, 1050 nm to 1650 nm, or 1300 nm to 1700 nm respectively. Other customized coatings are available on request.   Lens Code Effective Focal Length (EFL) Working Distance (WD) Numerical Aperture (NA) Clear Aperture (CA) Outer Diameter (OD) Design Wavelength (DW) LE0850 0.80 mm 0.40 mm 0.47 0.71 mm 3.000 mm 940 nm LD1560 1.50 mm 0.80 mm 0.58 1.60 mm 2.400 mm 780 nm LE1840 1.80 mm 1.10 mm 0.37 1.35 mm 3.000 mm 1550 nm LG2560 2.50 mm 1.62 mm 0.60 3.04 mm 4.000 mm 488 nm LF2570 2.50 mm 1.55 mm 0.66 3.30 mm 4.000 mm 405 nm LE2850 2.80 mm 2.70/7.10 mm 0.52/0.26 4.12/3.76 mm 4.700 mm 980 nm LE2860 2.80 mm 1.50 mm 0.64 3.60 mm 4.000 mm 830 nm LE2861 2.80 mm 2.16 mm 0.55 3.60 mm 4.500 mm 830 nm LD3170 3.10 mm 1.80 mm 0.68 5.00 mm 6.325 mm 830 nm LD4060 4.00 mm 2.68 mm 0.64 5.10 mm 6.325 mm 685 nm LG4060 4.00 mm 2.40 mm 0.60 4.80 mm 6.325 mm 408 nm LD4530 4.50 mm 3.50 mm 0.30 2.70 mm 3.000 mm 635 nm LD4540 4.50 mm 2.20 mm 0.40 3.70 mm 4.700 mm 980 nm LE4560 4.50 mm 3.10 mm 0.55 5.07 mm 6.325 mm 780 nm LD4650 4.60 mm 2.70 mm 0.54 4.80 mm 6.000 mm 655 nm LD5020 5.00 mm 4.37 mm 0.15 1.60 mm 2.000 mm 1550 nm LD5320 5.30 mm 4.19 mm 0.24 2.50 mm 3.000 mm 975 nm LD5560 5.50 mm 3.70 mm 0.58 6.00 mm 7.200 mm 635 nm LD6020 6.00 mm 4.90 mm 0.21 2.50 mm 3.000 mm 1550 nm LD6230 6.20 mm 4.10 mm 0.30 3.70 mm 4.700 mm 635 nm LE6240 6.20 mm 3.50 mm 0.40 5.00 mm 7.200 mm 780 nm LE6740 6.70 mm 4.90 mm 0.44 5.75 mm 6.650 mm 515 nm LE7530 7.50 mm 5.80 mm 0.30 4.54 mm 6.510 mm 780 nm LD8050 8.00 mm 5.90 mm 0.50 8.00 mm 9.936 mm 780 nm LD9630 9.60 mm 8.10 mm 0.27 5.20 mm 6.325 mm 635 nm LD9930 9.90 mm 8.40 mm 0.27 5.20 mm 6.335 mm 650 nm LDA050 10.00 mm 7.80 mm 0.51 10.00 mm 11.000 mm 635 nm LDA130 11.00 mm 7.90 mm 0.25 5.50 mm 7.200 mm 635 nm LDA320 13.00 mm 11.60 mm 0.20 5.20 mm 6.325 mm 633 nm LDA520 15.30 mm 14.00 mm 0.16 5.00 mm 6.500 mm 785 nm LDA820 18.40 mm 17.10 mm 0.15 5.50 mm 6.500 mm 785 nm LDB210 22.00 mm 20.41 mm 0.13 5.50 mm 6.325 mm 670 nm   Key Features: Diffraction Limited Precision Molding Different Glass Types Available Effective Focal Length: 0.8 mm to 22 mm Numerical Aperture: 0.13 to 0.68 Design Wavelength: 405 nm to 1550 nm Outer Lens Diameter: 2.400 mm to 11.000 mm Working Distance: 0.20 mm to 20.41 mm Applications: Laser; Telecom; Medical; Imaging; And Many More

800, 905 nm; Active Area Diameter 230, 500 µm; Responsivity 50, 55 A/W Typ.; Capacitance 1-3 pF Typ.; Package TO-46 Metal Can, LCC3 SMD, LCC6 SMD EPIGAP Optronic’s EOAPD series of silicon avalanche photodiodes (APD) provide an internal gain mechanism, fast time response, low dark current and high sensitivity in the near infrared region. These APDs are recommended for applications that require high bandwidth, or where internal gain is needed to overcome high pre-amp noise. In addition, they provide higher sensitivity than standard photodiodes like EPIGAP Optronic’s EOPD series and are ideal for extreme low-level light detection and short pulse detection. Silicon avalanche photodiodes (Si APDs) are the preferred optical detectors for applications with wavelengths between 400 nm and 1100 nm. Standard versions are available in active area sizes with a diameter of 230 µm and 500 µm and are offered in hermetic TO cans and LCC packages. These detectors have become the semiconductor equivalent of photomultipliers in many applications including data communication, LIDAR, instrumentation and photon counting. Key Features: Product Peak Wavelength Active Area Package Downloads EOAPD-800-0-04 800 nm Ø 230 µm TO-46 Metal Can Datasheet EOAPD-800-0-08 800 nm Ø 500 µm TO-46 Metal Can Datasheet EOAPD-800-1-01 800 nm Ø 230 µm LCC3 SMD Datasheet EOAPD-800-1-05 800 nm Ø 500 µm LCC3 SMD Datasheet EOAPD-800-1-07 800 nm Ø 500 µm LCC6 SMD Datasheet EOAPD-905-0-12 905 nm Ø 230 µm TO-46 Metal Can Datasheet EOAPD-905-0-16 905 nm Ø 500 µm TO-46 Metal Can Datasheet EOAPD-905-1-09 905 nm Ø 230 µm LCC3 SMD Datasheet EOAPD-905-1-13 905 nm Ø 500 µm LCC3 SMD Datasheet EOAPD-905-1-15 905 nm Ø 500 µm LCC6 SMD Datasheet   Applications: Data Communication; LIDAR; Instrumentation; Photon Counting; Optical Range Finders; High-speed Optical Communications; Medical Equipment; Barcode Readers