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Metasurface-Enabled Camera Optimized for AR/VR Devices

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SEOUL, South Korea, Dec. 2, 2024 — Researchers from Seoul National University have developed a folded lens system using metasurfaces to dramatically reduce the volume of cameras. By arranging metasurfaces on a glass substrate so that light can be reflected and moved around in the substrate in a folded manner, the team realized a lens system with a thickness of 0.7 mm.

Traditional cameras are designed to stack multiple glass lenses to refract light when capturing images. While this structure has provided excellent high-quality images, the thickness of each lens and the wide spacing between lenses increases the overall bulk of the camera, making it difficult to apply to devices that require ultra-compact cameras, such as VR and AR devices, smartphones, endoscopes, drones, and more.

To address this limitation, the researchers developed an ultra-thin camera system that reduces the thickness of a conventional lens system by less than half, using a new lens module design that incorporates metasurfaces. Metasurfaces, which are being touted as the next generation of nano-optical devices, have the ability to precisely control the three properties of light — intensity, phase, and polarization — on a pixel-by-pixel basis. This is because the nanostructures that make up a metasurface are arranged in periods of a few hundred nanometers (nm), which is shorter than the wavelength of light.
A schematic of a next-generation ultra-thin camera that utilizes metasurfaces, a nano-optical device, to secure light paths: By aligning metasurfaces horizontally on a glass substrate, light reflects multiple times within the substrate, securing space-efficient light paths in a folded manner. Courtesy of Seoul National University College of Engineering.
A schematic of a next-generation ultra-thin camera that utilizes metasurfaces, a nano-optical device, to secure light paths: By aligning metasurfaces horizontally on a glass substrate, light reflects multiple times within the substrate, securing space-efficient light paths in a folded manner. Courtesy of Seoul National University College of Engineering.


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“Our research focuses on efficiently utilizing the lens space by using metasurfaces,” said Taewon Choi, co-first author of the study. “The folded lens system is very thin, unlike conventional systems that are thick due to the combination of multiple lenses, so it will play an important role in the virtual and augmented reality industry, where device miniaturization and light weight are essential.”

According to the team, by designing a metasurface optimized for a specific wavelength (852 nm) and arranging multiple sheets horizontally on a glass substrate, light can be reflected multiple times inside the substrate, thereby space-efficiently securing the light paths in a folded manner. The team presented a structure for a miniaturized camera that captures images with a system of thin, folded lens module that adjust the path of light.

The system not only overcomes the physical limitations of thick conventional lens modules, but also delivers superior image quality. This is because it provides a 10-degree field of view within a very small system footprint of 0.7 mm thick, and delivers high-resolution images close to the diffraction limit at an aperture of f/4 and a wavelength of 852 nm. Thanks to these strong competitive advantages, the miniaturized camera technology developed by the researchers is expected to be widely applied in various advanced optical device industries such as VR and AR devices, smartphones, medical endoscopes, and miniaturized drones.

“This research is significant in that it provides a creative breakthrough to innovatively reduce the thickness of cameras by introducing nano-optical devices,” said Youngjin Kim, first author of the paper. “We will continue our research to lead the innovation of thin and light cameras with metasurfaces that combine excellent performance and industrial benefits thanks to their nanometer-scale light tuning freedom and fabrication through semiconductor processes.”

The research was published in Science Advances (www.doi.org/10.1126/sciadv.adr2319).

Published: December 2024
Glossary
metalens
A metalens, short for "metasurface lens," is a type of optical lens that uses nanostructured materials to manipulate light at a subwavelength scale. Unlike traditional lenses made of glass or other transparent materials, metalenses do not rely on the curvature of their surface to refract or focus light. Instead, they use carefully engineered patterns of nanostructures, such as nanoscale antennas or dielectric structures, to control the phase and amplitude of light across the lens's surface....
camera
A light-tight box that receives light from an object or scene and focuses it to form an image on a light-sensitive material or a detector. The camera generally contains a lens of variable aperture and a shutter of variable speed to precisely control the exposure. In an electronic imaging system, the camera does not use chemical means to store the image, but takes advantage of the sensitivity of various detectors to different bands of the electromagnetic spectrum. These sensors are transducers...
lens
A lens is a transparent optical device that focuses or diverges light, allowing it to pass through and form an image. Lenses are commonly used in optical systems, such as cameras, telescopes, microscopes, eyeglasses, and other vision-correcting devices. They are typically made of glass or other transparent materials with specific optical properties. There are two primary types of lenses: Convex lens (converging lens): This type of lens is thicker at the center than at the edges....
lens system
Two or more lenses arranged to act in conjunction with one another.
augmented reality
Augmented reality (AR) is a technology that integrates digital information, typically in the form of computer-generated graphics, images, or data, with the real-world environment in real-time. AR enhances the user's perception of the physical world by overlaying or combining digital content onto the user's view of the real world, often through devices like smartphones, tablets, smart glasses, or specialized AR headsets. Key features and principles of augmented reality: Real-time...
virtual reality
Virtual reality (VR) is a computer-generated simulation of a three-dimensional environment or experience that can be interacted with and explored by an individual using electronic devices, such as a headset with a display. VR aims to create a sense of presence, immersing users in a computer-generated world that can be entirely fictional or a replication of the real world. It often involves the use of specialized hardware and software to provide a fully immersive and interactive experience. ...
Research & TechnologyOpticsmetasurfacenano-opticmetalensfoldedcameralenslens systemaugmented realityvirtual realityARVRImagingSeoul National UniversityCollege of EngineeringSNUKoreaAsia-PacificScience Advances

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