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Technology

  • 2D Fiber Alignment Arrays made by WOP

    2D Fiber Alignment Arrays

    2D Fiber Alignment Arrays

    We offer optical fiber alignment arrays (1D, 2D micro-hole arrays) fabrication services. Our solution enables reaching excellent precision results in fiber arrays fabrication – the crucial component in optical communication systems – resulting in low-loss, high-speed, large-capacity communication. Laser micromachining, together with the selective laser induces etching SLE which we use, offers definite advantages in terms of precision, consistency, speed, material versatility, cost-effectiveness.
    WOP | Workshop of Photonics logo
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    WOP | Workshop of Photonics logo

  • Advanced Laser Ablation

    Advanced Laser Ablation

    LASEA specializes in precision micro machining using ultra-short femtosecond laser technology. We offer services including laser marking, engraving, cutting, welding, and texturing. Key benefits include flexibility, versatility, high accuracy, and non-contact processes with reproducible results. The processing area ranges from a few millimeters up to 1 meter.
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  • Design Services for Flat and Meta Optics

    Design Services for Flat and Meta Optics

    We provide tailored design and fabrication services for flat and meta-optics, helping our partners to accelerate innovation from concept to production. By combining advanced optical modelling, system integration expertise, and strong links to manufacturing partners, we deliver custom solutions optimized for performance, manufacturability, and scalability.
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  • Diffractive Optics (DOEs)

    Diffractive Optics (DOEs)

    Focuslight offers high-precision diffractive optical elements (DOEs) for AR/VR, imaging, lighting, and security applications. Manufactured using photolithography and dry etching, these DOEs provide up to 96% efficiency with feature sizes from 500 nm to 1 µm. They are ideal for beam shaping, spot generation, and metrology.
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  • Etched Microlenses

    Etched Microlenses

    Focuslight provides wafer-scale etched microlenses for imaging, displays, and optics. Made from fused silica or silicon, they offer NAs of 0.09–0.6 and customizable arrays. Using reflow, photolithography, and dry etching, they ensure high precision for fiber optics, photonics, and laser systems.
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  • Freeform masters for replication

    Freeform masters for replication

    PowerPhotonic offers advanced fused silica master fabrication for replicated optics using proprietary laser machining and smoothing processes. Our technology enables the production of high-precision freeform surfaces, ideally suited for high-fidelity replication in volume optical manufacturing.
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  • Fresnel Lens Films

    Fresnel Lens Films

    Nanocomp Oy Ltd offers ultra-thin Fresnel lens films using UV embossing and customizable lens shapes. These films provide excellent optical performance with minimal fringe visibility, ideal for applications like LED light shaping, sensor optics, and laser beam shaping, with customizable focal lengths and profiles.
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  • Light Guiding Elements

    Light Guiding Elements

    Light Guiding Elements are structures that are designed to efficiently control and direct the path of light using principles like total internal reflection or diffraction. We design and manufacture custom Light Guiding Elements with specific or randomly added light guiding features, such as micro lenses, prisms or frosted features, combining functional surface manipulation with performance gradients utilizing Printoptical® 3D printing. Light Guiding Elements are applied in automotive, general lighting, photovoltaic, display and sign industries, to improve light efficiency, reduce energy consumption, and manage light distribution.
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  • Meta Optics Design Software

    Meta Optics Design Software

    We offer an integrated software platform that unifies the design workflow for metasurfaces and flat optical systems. By combining nanoscale simulations, metasurface assembly, and system-level integration in one environment, our software makes advanced optical design faster, more accessible, and easier to scale from research to industry.
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  • Micro Fresnel lenslets

    Micro Fresnel lenslets

    Customized micro Fresnel lenslets may support your illumination application. Fraunhofer IOF generates Fresnel lenslets by grayscale photolithography with quasi continuous surface profile. We offer Fresnel lenslets in fused silica, Si, or Ge for applications from UV to MIR or as polymer on glass.
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  • Microimprint on Wafer Level

    Microimprint on Wafer Level

    Focuslight provides wafer-scale microimprint solutions for automotive, healthcare, imaging, and packaging. Features include lens sizes <3 mm, arrays from 2–200 mm, and edge slopes <40°, enabling cost-effective production of complex optical components with freeform designs and high fill factors.
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  • Microlens Array Films

    Microlens Array Films

    Nanocomp Oy Ltd manufactures customizable microlens array (MLA) films using UV roll-to-roll imprinting, offering high precision and cost-efficient mass production. These ultra-thin, flexible films are ideal for applications in displays, sensors, fiber couplers, and 3D imaging, providing excellent optical performance and customizable shapes.
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  • NanoImprint at wafer-scale

    NanoImprint at wafer-scale

    CEA offers wafer-scale nanoimprinting services using soft UV-NIL technology, ideal for industries like AR/VR, automotive, and healthcare. This method enables high-throughput patterning on silicon or glass wafers with features down to nanometers. Key specifications include minimum pattern widths of 45 nm, high uniformity (&lt;1% variation), and low defectivity (&lt;10 defects/cm²). Capabilities support 2D, 3D, and freeform shapes, allowing versatile design for custom optical applications.
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  • Optical Engineering Services

    Optical Engineering Services

    We help technology companies in AR/VR, medical devices, and consumer electronics transform innovative optical concepts into market-ready products. Backed by over 20 years of engineering excellence, we deliver high-performance, cost-effective solutions tailored to your goals — optimizing for quality, risk, and time-to-market.
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  • Optical Simulation

    Optical Simulation

    JOANNEUM RESEARCH delivers tailored optical solutions using ray tracing, FDTD, and proprietary multiscale algorithms. Our unique freeform micro-optics and metaoptics expertise enables innovations from large-scale illumination to advanced nanophotonic devices.
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  • Origination

    Origination

    We offer wafer-scale technical services for originating micro-lens arrays via photolithography and thermal reflow with customizable shapes, sizes, and array patterns for diverse markets.
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  • Origination – MicroLens Array

    Origination – MicroLens Array

    CEA-Leti offers a wafer-scale micro-lens array masters made from silicon (Si) and silicon dioxide (SiO₂), utilizing dry and wet etching with lithography. The array is customized to client specifications, enabling microlenses as small as 2 μm with no gaps. The lens arrays can span a full wafer (200 mm Si) or smaller areas as needed, with guaranteed uniformity across the surface.
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  • Printed Diffusers

    Printed Diffusers

    We manufacture optical diffusers with customizable scattering profiles and optional frosted or non-frosted finishes, using Printoptical® 3D printing to combine precision functionality with design freedom. Applications range from architectural lighting and display backlighting to glare reduction in consumer products.
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  • Printed Facet Lenses

    Printed Facet Lenses

    We produce custom freeform facet lenses using Printoptical® 3D printing, enabling precise beam shaping and compact optical designs without the need for molds. Facet lenses are well suited for illumination, projection, and sensing applications where tailored light distribution is required – “Light where Needed”.
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  • Printed Micro-Reflectors

    Printed Micro-Reflectors

    We manufacture custom reflector components with integrated freeform geometries, produced directly by Printoptical® 3D printing for efficient and flexible light control. Typical uses include LED lighting fixtures, optical instruments, and compact illumination systems.
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  • Replication at Wafer-scale

    Replication at Wafer-scale

    CSEM SA offers wafer-scale UV-NIL replication services for microlenses, arrays, and freeform micro-optical elements. Supporting AR/VR, automotive, and healthcare, they ensure alignment precision below 2 microns, handle materials like glass and polymers, and produce up to 100 wafers/year on 6-inch wafers.
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  • Replication by R2P

    Replication by R2P

    CSEM SA offers Roll-to-Plate (R2P) UV-NIL replication, enabling precise micro- and nanostructures on large substrates (up to 600x1200mm, 0.5–10mm thick) for cost-effective mass production. Applications span AR/VR, healthcare, optics, solar, and more, ensuring high throughput and innovative photonics solutions.
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  • Roll-to-Roll NIL

    Roll-to-Roll NIL

    JOANNEUM RESEARCH offers Roll-to-Roll (R2R) manufacturing for optical, optoelectronic, and electronic components. This process enables mass production of micro- and nanostructures on flexible substrates, with tailored UV resin properties. It supports sustainable, cost-effective product development in biotechnology, nanotechnology, and advanced manufacturing.
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  • Roll-to-Roll UV Imprint Replication

    Roll-to-Roll UV Imprint Replication

    Nanocomp Oy Ltd offers Roll-to-Roll (R2R) UV imprint replication for high-resolution, cost-effective mass production of optical components. This process uses UV curable resin to replicate micro and nano-structures on flexible substrates, ideal for light guides, diffractive optical elements, and microlens arrays.
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  • Step and Repeat NIL

    Step and Repeat NIL

    JOANNEUM RESEARCH offers Step and Repeat nanoimprint lithography for large-scale production of flexible shims and prototypes. Using a modified EVG770 NIL stepper, this process enables high-precision, cost-effective production for photonics, functional surfaces, and microfluidic systems, with a substrate size of up to 270x700mm.
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  • System Design Services for Automotive Applications

    System Design Services for Automotive Applications

    We are dedicated to delivering cutting-edge engineering and system design solutions, with a focus on automotive and optical technologies. Our strength lies in combining precision engineering with innovative thinking to create components and systems that meet the highest standards in performance, manufacturability, and aesthetics. With a growing emphasis on micro-optics, we are expanding our capabilities into new technological frontiers, helping our clients bring advanced optical solutions from concept to reality.

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  • Vacuum Roll-to-roll Coating

    Vacuum Roll-to-roll Coating

    We provide vacuum web coating plants for coating of flexible materials with optical, electrical and decorative functional layers and barrier layers via sputtering techniques and magnetron PECVD processes. Line speed of up to 100 meters per minute can be achieved.
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