Honeywell international inc. (20240264255). INTEGRATED PHOTONIC RESPONSIVE MATERIAL SENSOR simplified abstract
Contents
INTEGRATED PHOTONIC RESPONSIVE MATERIAL SENSOR
Organization Name
Inventor(s)
Neal Eldrich Solmeyer of Edina MN (US)
Matthew Wade Puckett of Phoenix AZ (US)
Matthew Robbins of Minneapolis MN (US)
Mary Salit of Plymouth MN (US)
INTEGRATED PHOTONIC RESPONSIVE MATERIAL SENSOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240264255 titled 'INTEGRATED PHOTONIC RESPONSIVE MATERIAL SENSOR
- Simplified Explanation:**
The patent application describes systems for an integrated photonic responsive material sensor. The system includes a carrier wafer with a cavity and a responsive waveguide made from a material that responds to force by shifting resonance frequency. Components are coupled to the carrier wafer, including a probe light source to generate probe light.
- Key Features and Innovation:**
- System includes a carrier wafer with a cavity and a responsive waveguide made from a responsive material. - Responsive material shifts resonance frequency in response to force. - Probe light is directed to the responsive waveguide to prepare it to absorb a probe light when exposed to radio frequency. - Components coupled to the carrier wafer include a probe light source to generate the probe light.
- Potential Applications:**
- Sensing applications in various industries such as healthcare, aerospace, and automotive. - Structural health monitoring. - Environmental monitoring. - Biomedical applications.
- Problems Solved:**
- Provides a sensitive and accurate sensor for detecting forces. - Enables real-time monitoring of structural integrity. - Enhances detection capabilities in various applications.
- Benefits:**
- Improved sensitivity and accuracy in force detection. - Real-time monitoring capabilities. - Enhanced performance in various sensing applications.
- Commercial Applications:**
Title: Advanced Photonic Responsive Material Sensor for Precision Sensing Applications This technology can be utilized in industries such as healthcare for medical diagnostics, aerospace for structural health monitoring, and automotive for safety systems. The market implications include improved safety, efficiency, and accuracy in various applications.
- Questions about Photonic Responsive Material Sensor:**
1. How does the responsive waveguide shift resonance frequency in response to force? 2. What are the potential limitations of this technology in practical applications?
- Frequently Updated Research:**
Ongoing research focuses on optimizing the design of the photonic responsive material sensor for increased sensitivity and reliability. Researchers are also exploring new applications in emerging fields such as Internet of Things (IoT) and wearable technology.
Original Abstract Submitted
systems for an integrated photonic responsive material sensor are described herein. in certain embodiments, a system includes a carrier wafer that includes a cavity formed in the carrier wafer. the carrier wafer also includes a responsive waveguide coupled to the cavity, the responsive waveguide formed from responsive material responsive to a force by shifting a resonance frequency of point defects in the responsive material in response to the force, wherein a pump light is directed to the responsive waveguide to prepare the responsive waveguide to absorb a probe light when exposed to a radio frequency at the point defect resonance frequency. additionally, the system includes components coupled to the carrier wafer, wherein the components include a probe light source that generates the probe light, wherein the components are positioned in relation to the carrier wafer to couple the probe light into the cavity.
