IMAGE DISPLAY APPARATUS AND DISPLAY APPARATUS

Organization Name

Sony Group Corporation

Inventor(s)

Kazue Shimizu of Tokyo (JP)

Nobuhiro Kihara of Tokyo (JP)

IMAGE DISPLAY APPARATUS AND DISPLAY APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18683923 titled 'IMAGE DISPLAY APPARATUS AND DISPLAY APPARATUS

The image display apparatus described in the patent application includes an optical engine, at least two light guide plates, and an optical element positioned between the light guide plates. Diffraction gratings are integrated into the light guide plates to control the emission of light with specific wavelength bands.

• The image display apparatus features an optical engine for enhanced image quality.
• At least two light guide plates are utilized in the apparatus.
• An optical element is strategically placed between the light guide plates.
• Diffraction gratings are integrated into the light guide plates to control the emission of light with specific wavelength bands.
• Light with different wavelength bands is emitted outside the light guide plates through the output diffraction gratings.

Potential Applications: - This technology can be applied in high-resolution displays for televisions and monitors. - It can also be used in projection systems for cinemas and large venues. - Medical imaging equipment could benefit from the improved image quality provided by this apparatus.

Problems Solved: - Enhances image quality by controlling the emission of light with specific wavelength bands. - Provides a more precise and accurate display of images. - Improves the overall viewing experience for users.

Benefits: - Improved image quality and resolution. - Enhanced color accuracy and brightness. - Better control over the emission of light for a more detailed display.

Commercial Applications: Title: Advanced Image Display Technology for High-Resolution Displays This technology can be commercialized for use in high-end televisions, monitors, projectors, and medical imaging equipment. The improved image quality and color accuracy make it a valuable addition to the display technology market.

Prior Art: Prior art related to this technology may include patents or research papers on diffraction gratings in light guide plates for image display applications. Researchers and inventors in the field of display technology may have explored similar concepts in the past.

Frequently Updated Research: Researchers in the field of display technology are constantly exploring new methods to enhance image quality and color accuracy. Stay updated on the latest advancements in diffraction grating technology for image display applications.

Questions about Image Display Technology: 1. How does the integration of diffraction gratings in light guide plates improve image quality? - The diffraction gratings help control the emission of light with specific wavelength bands, resulting in enhanced color accuracy and brightness in the displayed images.

2. What are the potential commercial applications of this advanced image display technology? - This technology can be used in high-resolution displays for televisions, monitors, projectors, and medical imaging equipment, offering improved image quality and color accuracy for various applications.

Original Abstract Submitted

Provided is an image display apparatus that makes it possible to achieve further improvement in image quality. The image display apparatus includes: an optical engine; at least two light guide plates; and an optical element disposed between a first light guide plate and a second light guide plate. A first input diffraction grating and a first output diffraction grating are disposed in the first light guide plate, a second input diffraction grating and a second output diffraction grating are disposed in the second light guide plate. Light having a first wavelength band is emitted outside the first light guide plate through the first output diffraction grating, and light having a second wavelength band is emitted outside the second light guide plate through the second output diffraction grating.