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Polymer optics, A woman in a blue lab coat is placing a metal tray filled with small black optical components into a transparent drying or cleanroom chamber. She is working in a clean manufacturing environment, with a blue tool board holding various metal templates or fixtures in the background. A wall calendar is partially visible on the right side of the image, adding context to the workspace©️ G&H polymer optics manufacturing

Thin film coating for polymer optics

Technical

Polymer optic coatings are an essential part of many optical systems, providing a variety of benefits, including:

  • Reduced reflection: Polymer optic coatings can reduce reflection from optical surfaces, which can improve image quality and reduce glare.
  • Increased transmission: Polymer optic coatings can increase the transmission of light through optical systems, which can improve overall efficiency.
  • Enhanced durability: Polymer optic coatings can protect optical surfaces from scratches, abrasion, and other damage.
GS Optics polymer optics, A woman in a light blue lab coat is opening the large door of a vacuum deposition or coating chamber inside a clean, well-lit laboratory or manufacturing facility. The interior of the machine features complex metal components and heating elements. The setting includes shelving, equipment, and boxes, indicating an industrial or high-tech environment©️ Private

At G&H (LON:GHH), we offer a wide range of polymer optic coatings to meet the needs of our customers. We can apply coatings to a variety of polymer substrates, including PMMA, Styrene, Polycarbonate, and cyclo olefin polymers (COP) such as Zeonex, Zeonor, and Topas.

We also offer a variety of coating types, including:

  1. Anti-reflective (AR) coatings: AR coatings reduce reflection from optical surfaces, improving image quality and reducing glare.
  2. Reflective (HR) coatings: HR coatings increase the reflectivity of optical surfaces, which can be used to create mirrors and other reflective components.
  3. Bandpass coatings: Bandpass coatings allow only a specific range of wavelengths of light to pass through, which can be used to create filters and other wavelength-selective components.
A woman wearing safety glasses and a cleanroom lab coat operates a touchscreen interface on a piece of industrial equipment. The screen displays a process control menu with various deposition steps, likely for a vacuum coating or thin film process. The setting appears to be a high-tech manufacturing or laboratory environment©️ Private

Our polymer optic coatings are applied using state-of-the-art thin film deposition techniques. This ensures that our coatings are uniform, durable, and meet the highest quality standards.

We offer a variety of benefits to our customers, including:

  1. High quality: Our polymer optic coatings are manufactured to the highest quality standards.
  2. Durability: Our coatings are durable and can withstand harsh environments.
  3. Flexibility: We offer a wide range of coating types and can apply coatings to a variety of polymer substrates.
  4. Expertise: Our team of experts can help you choose the right coating for your application and ensure that your coatings meet your specific requirements.

If you are looking for high-quality, durable polymer optic coatings, contact G&H today. We will be happy to answer your questions and help you choose the right coating for your application.

Polymer Optics Capabilities

Product Enquiry

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