Meta platforms technologies, llc (20240295793). SPECKLE MITIGATION DEVICES INCLUDING DYNAMIC MICROSTRUCTURAL MATERIALS simplified abstract
Contents
SPECKLE MITIGATION DEVICES INCLUDING DYNAMIC MICROSTRUCTURAL MATERIALS
Organization Name
meta platforms technologies, llc
Inventor(s)
Spencer Allan Wells of Seattle WA (US)
Kenneth Alexander Diest of Kirkland WA (US)
SPECKLE MITIGATION DEVICES INCLUDING DYNAMIC MICROSTRUCTURAL MATERIALS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240295793 titled 'SPECKLE MITIGATION DEVICES INCLUDING DYNAMIC MICROSTRUCTURAL MATERIALS
The abstract describes a device with a pair of electrodes and a dynamic material between them that can change states in response to an electric field. The material includes tetragonal lead magnesium niobate-lead titanate (PMN-PT) and lanthanide series elements. The method involves doping PMN-PT with lanthanide elements to form tetragonal PMN-PT and creating a nanostructured coupling element for high index waveguides.
- Device with electrodes and dynamic material that changes states in response to electric field
- Material includes PMN-PT and lanthanide series elements
- Method involves doping PMN-PT with lanthanide elements
- Formation of tetragonal PMN-PT
- Creation of nanostructured coupling element for high index waveguides
Potential Applications: - Advanced sensors - Actuators - Optical devices - MEMS devices
Problems Solved: - Enhancing material properties - Improving device performance - Enabling new applications in various industries
Benefits: - Increased sensitivity - Greater efficiency - Enhanced functionality
Commercial Applications: Nanostructured coupling elements can be used in telecommunications, photonics, and optical computing industries to improve device performance and efficiency.
Questions about the technology: 1. How does the doping of lanthanide elements enhance the properties of PMN-PT? 2. What are the specific advantages of using a nanostructured coupling element in high index waveguides?
Frequently Updated Research: Researchers are continually exploring new doping techniques and nanostructuring methods to further enhance the performance of materials like PMN-PT in various applications.
Original Abstract Submitted
a device includes a pair of electrodes and a dynamic material disposed between the pair of electrodes, the dynamic material including a crystalline microstructure configured to change between at least two states in response to a change in an electric field between the two electrodes. a material includes tetragonal lead magnesium niobate-lead titanate (pmn-pt) and at least one lanthanide series element. a method includes doping a lead magnesium niobate-lead titanate material with at least one lanthanide series element, and processing the pmn-pt material to form tetragonal pmn-pt. a further method includes forming a low refractive index nanostructured grating over a carrier substrate, forming a high refractive index layer over the low refractive index grating to produce a nanostructured coupling element, forming an adhesive layer over the nanostructured coupling element, and affixing the nanostructured coupling element to a high index waveguide.