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Adaptive Lens

Building on customer feedback and learnings from over a decade, we are proud to present Optotune’s most effective liquid lens, the EL-12-30-TC. Redesigned from the ground up, it makes use of the latest materials and manufacturing technologies to provide best performance in a compact form-factor. The tunable lens can be shaped ...

Specifications

Clear Aperture: 12 mm
Scan Rate (max): 1000 Hz
Optical Power Range: -6 – 10 Diopter
Transmittance (min): 96 %
Power Consumption (max): 0.6 W
With a clear aperture of 16mm Optotune presents the world‘s largest electrically focus tunable lens bringing fast and reliable focus control to high end applications. Based on the well-established shape-changing lens technology, the EL-16-40-TC can be shaped from a flat zero-state into a plano-concave or plano-convex lens, ...

Specifications

Clear Aperture: 16 mm
Scan Rate (max): 1000 Hz
Optical Power Range: -2 – 3 Diopter
Transmittance (min): 96 %
Power Consumption (max): 0.6 W

Adaptive Lenses: Dynamic Vision Solutions for Advanced Optical Systems

Adaptive lenses are cutting-edge optical components that dynamically adjust their focal length or optical properties in response to external stimuli, such as electrical voltage, magnetic fields, or light intensity. These lenses play a crucial role in enhancing the performance of various optical systems by providing real-time compensation for aberrations and enabling dynamic focusing capabilities.

What Are Adaptive Lenses?

Adaptive lenses are optical elements whose properties can be altered in real-time to correct for optical aberrations or to achieve dynamic focusing. Unlike traditional fixed-focus lenses, adaptive lenses can change their focal length, curvature, or other optical characteristics, allowing for greater flexibility and precision in optical systems.

There are several types of adaptive lenses, including:

  • Liquid Crystal Lenses: These lenses utilize liquid crystal materials that change their refractive index when an electric field is applied, enabling dynamic focusing.

  • Electro-optic Lenses: These lenses use materials whose refractive index changes in response to an applied electric field, allowing for rapid adjustments in focus.

  • Magneto-optic Lenses: These lenses change their optical properties in response to magnetic fields, offering another method for dynamic focusing.

Applications of Adaptive Lenses

Adaptive lenses are employed across various fields due to their versatility and performance:

  • Adaptive Optics Systems: In applications like astronomy and microscopy, adaptive lenses are used to correct for wavefront distortions caused by atmospheric turbulence or optical system imperfections, enhancing image quality.

  • Retinal Imaging: Adaptive lenses enable high-resolution imaging of the retina by compensating for ocular aberrations, allowing for detailed visualization of retinal structures.

  • Laser Beam Shaping: In laser systems, adaptive lenses can dynamically adjust the focus and shape of the laser beam, improving precision in applications like laser machining and optical trapping.

  • Augmented Reality (AR) and Virtual Reality (VR): Adaptive lenses are used in AR and VR headsets to provide dynamic focus adjustments, enhancing user experience by reducing eye strain and improving image clarity.

Benefits of Adaptive Lenses

The integration of adaptive lenses into optical systems offers several advantages:

  • Real-Time Compensation: Adaptive lenses can dynamically correct for aberrations or adjust focus in real-time, improving the performance of optical systems.

  • Enhanced Image Quality: By compensating for distortions and imperfections, adaptive lenses enhance the clarity and resolution of images.

  • Increased Flexibility: The ability to adjust optical properties on the fly allows for greater flexibility in various applications, from imaging to laser systems.

  • Compact Design: Many adaptive lenses are designed to be compact and lightweight, making them suitable for integration into portable and wearable devices.

Choosing the Right Adaptive Lens

When selecting an adaptive lens for a specific application, several factors should be considered:

  • Response Time: The speed at which the lens can adjust its properties is crucial for applications requiring rapid changes, such as real-time imaging.

  • Optical Range: The range over which the lens can adjust its focal length or other properties should align with the requirements of the application.

  • Size and Integration: The physical dimensions of the lens and its compatibility with existing optical systems are important for seamless integration.

  • Control Mechanism: The method by which the lens properties are adjusted (e.g., electrical, magnetic) should be compatible with the system's control infrastructure.

Explore Adaptive Lenses on FindLight

FindLight offers a comprehensive selection of adaptive lenses from leading manufacturers, catering to a wide range of applications. Our platform allows you to filter products based on key specifications, ensuring you find the perfect match for your needs. Whether you're working in adaptive optics, retinal imaging, or laser systems, FindLight provides the tools you need to enhance your optical systems.

Did You know?

Adaptive lenses are revolutionary optical components that can dynamically change their focus or optical properties in real-time. Unlike traditional fixed lenses, adaptive lenses adjust based on electrical, magnetic, or optical stimuli, allowing seamless correction of aberrations or changes in focal length. This capability makes them invaluable in fields such as adaptive optics, biomedical imaging, and augmented reality (AR) devices. For example, in ophthalmology, adaptive lenses help achieve high-resolution retinal imaging by compensating for imperfections in the eye’s optics. In AR and virtual reality (VR) headsets, they reduce eye strain by providing dynamic focusing, resulting in clearer, more comfortable visuals. Their compact and lightweight design also makes them perfect for integration into portable optical systems. The rapid response times and wide optical tuning range of adaptive lenses continue to expand their applications, improving the performance and flexibility of modern optical technologies.