18553431. WAVELENGTH SELECTIVE PHASE DIFFERENCE ELEMENT AND PROJECTION DISPLAY APPARATUS simplified abstract (SONY GROUP CORPORATION)
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WAVELENGTH SELECTIVE PHASE DIFFERENCE ELEMENT AND PROJECTION DISPLAY APPARATUS
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WAVELENGTH SELECTIVE PHASE DIFFERENCE ELEMENT AND PROJECTION DISPLAY APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 18553431 titled 'WAVELENGTH SELECTIVE PHASE DIFFERENCE ELEMENT AND PROJECTION DISPLAY APPARATUS
The abstract describes a wavelength selective phase difference element with a multi-layer structure and an optical axis parallel to the Z-axis direction.
- The element has a light incident surface and a light output surface opposed to each other in the Z-axis direction.
- A first member with multiple layers is stacked between the light incident surface and the light output surface.
- A second member on the light output surface has an optical axis parallel to the Z-axis direction.
Potential Applications: - Optical filters - Spectroscopy - Interference coatings
Problems Solved: - Selective wavelength manipulation - Precision optical phase control
Benefits: - Enhanced optical performance - Improved spectral selectivity - Increased control over light properties
Commercial Applications: Title: Advanced Optical Filters for Spectroscopy and Imaging This technology can be utilized in industries such as telecommunications, astronomy, and biomedical imaging for enhanced optical performance and precision control over light properties.
Questions about Wavelength Selective Phase Difference Element: 1. How does the multi-layer structure of the element contribute to its functionality? 2. What are the potential applications of this technology in the field of spectroscopy?
Frequently Updated Research: Stay updated on the latest advancements in optical filters and interference coatings for potential improvements in wavelength selectivity and phase control.
Original Abstract Submitted
A wavelength selective phase difference element according to an embodiment of the present disclosure includes: a light incident surface and a light output surface that are opposed to each other in a Z-axis direction when three axes including an X axis, a Y axis, and a Z axis are orthogonal to one another; a first member that has a multi-layer structure where a plurality of layers are stacked between the light incident surface and the light output surface; and a second member that is disposed on the light output surface of the first member and has an optical axis parallel to the Z-axis direction.