18214721. SPATIAL LIGHT MODULATORS, METHODS OF OPERATING AND MANUFACTURING THE SAME, AND APPARATUS INCLUDING SPATIAL LIGHT MODULATOR simplified abstract (SAMSUNG ELECTRONICS CO., LTD.)
SPATIAL LIGHT MODULATORS, METHODS OF OPERATING AND MANUFACTURING THE SAME, AND APPARATUS INCLUDING SPATIAL LIGHT MODULATOR
Organization Name
Inventor(s)
Junghyun Park of Suwon-si (KR)
Byunggil Jeong of Suwon-si (KR)
SPATIAL LIGHT MODULATORS, METHODS OF OPERATING AND MANUFACTURING THE SAME, AND APPARATUS INCLUDING SPATIAL LIGHT MODULATOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 18214721 titled 'SPATIAL LIGHT MODULATORS, METHODS OF OPERATING AND MANUFACTURING THE SAME, AND APPARATUS INCLUDING SPATIAL LIGHT MODULATOR
The abstract describes a spatial light modulator with a substrate, a blocking layer, lower and upper reflective layers, and a cavity layer. The blocking layer has holes to prevent heat transfer to the substrate.
- The spatial light modulator includes a blocking layer with holes to block heat transfer.
- Lower and upper reflective layers are present in the modulator.
- A cavity layer is situated between the upper and lower reflective layers.
- The blocking layer is designed to prevent heat from reaching the substrate.
- This technology aims to improve the efficiency and performance of spatial light modulators.
Potential Applications: - Optical computing - Holographic displays - Adaptive optics systems
Problems Solved: - Heat dissipation in spatial light modulators - Enhancing the functionality of reflective layers - Improving overall performance and efficiency
Benefits: - Increased efficiency in optical systems - Enhanced image quality in holographic displays - Better control in adaptive optics applications
Commercial Applications: Title: Enhanced Spatial Light Modulators for Advanced Optical Systems This technology can be utilized in industries such as: - Display technology - Biomedical imaging - Defense and security systems
Prior Art: Readers can explore prior research on spatial light modulators, reflective layers, and heat dissipation in optical systems to understand the background of this innovation.
Frequently Updated Research: Stay updated on advancements in spatial light modulators, optical computing, and holographic display technologies to further enhance the understanding and application of this innovation.
Questions about Spatial Light Modulators: 1. How does the blocking layer in the spatial light modulator contribute to its overall performance? 2. What are the key differences between this spatial light modulator design and previous models in terms of heat management?
Original Abstract Submitted
A spatial light modulator includes a substrate, a blocking layer provided on one surface of the substrate, a lower reflective layer provided on the blocking layer, an upper reflective layer facing the lower reflective layer, and a cavity layer provided between the upper reflective layer and the lower reflective layer, where the blocking layer includes a plurality of holes configured to block heat transferred from the upper reflective layer to the substrate.
