MAGIC LEAP, INC. (20240302652). COLOR-SELECTIVE WAVEGUIDES FOR AUGMENTED REALITY/MIXED REALITY APPLICATIONS simplified abstract
COLOR-SELECTIVE WAVEGUIDES FOR AUGMENTED REALITY/MIXED REALITY APPLICATIONS
Organization Name
Inventor(s)
Sharad D. Bhagat of Austin TX (US)
David Carl Jurbergs of Austin TX (US)
Ryan Jason Ong of Austin TX (US)
Christophe Peroz of San Francisco CA (US)
Chieh Chang of Cedar Park TX (US)
COLOR-SELECTIVE WAVEGUIDES FOR AUGMENTED REALITY/MIXED REALITY APPLICATIONS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240302652 titled 'COLOR-SELECTIVE WAVEGUIDES FOR AUGMENTED REALITY/MIXED REALITY APPLICATIONS
Simplified Explanation: The patent application describes color-selective waveguides that can reduce or block stray light entering a waveguide, thereby minimizing back-reflection or back-scattering into the eyepiece.
- Color-selective waveguides reduce or block stray light entering the waveguide.
- Methods for fabricating color-selective waveguides are disclosed.
- Applications in augmented reality (AR) and mixed reality (MR) involving color-selective waveguides are discussed.
- Reducing or eliminating back-reflection or back-scattering into the eyepiece is a key advantage of these waveguides.
Potential Applications: 1. Augmented reality devices 2. Mixed reality headsets 3. Optical systems requiring light control
Problems Solved: 1. Minimizing stray light interference 2. Enhancing image clarity in waveguides 3. Improving user experience in AR/MR applications
Benefits: 1. Enhanced visual quality 2. Reduced eye strain 3. Improved overall performance of optical systems
Commercial Applications: Color-selective waveguides can be used in AR/MR headsets, smart glasses, and other optical devices to enhance user experience and image quality, potentially appealing to tech companies and manufacturers in the consumer electronics industry.
Questions about Color-Selective Waveguides: 1. How do color-selective waveguides differ from traditional waveguides in optical systems? 2. What are the key advantages of using color-selective waveguides in augmented reality applications?
Frequently Updated Research: Ongoing research in the field of optical waveguides and AR/MR technology may lead to further advancements in color-selective waveguides, improving their performance and applications in various industries.
Original Abstract Submitted
color-selective waveguides, methods for fabricating color-selective waveguides, and augmented reality (ar)/mixed reality (mr) applications including color-selective waveguides are described. the color-selective waveguides can advantageously reduce or block stray light entering a waveguide (e.g., red, green, or blue waveguide), thereby reducing or eliminating back-reflection or back-scattering into the eyepiece.