Honda Motor Co., Ltd. (20240330734). HYBRID QUANTUM SENSORS BASED ON SPIN DEFECTS COUPLED TO AN ARRAY OF SINGLE MOLECULE MAGNETIC CENTERS simplified abstract
HYBRID QUANTUM SENSORS BASED ON SPIN DEFECTS COUPLED TO AN ARRAY OF SINGLE MOLECULE MAGNETIC CENTERS
Organization Name
Inventor(s)
Avetik Harutyunyan of Santa Clara CA (US)
Paola Cappellaro of Cambridge MA (US)
HYBRID QUANTUM SENSORS BASED ON SPIN DEFECTS COUPLED TO AN ARRAY OF SINGLE MOLECULE MAGNETIC CENTERS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240330734 titled 'HYBRID QUANTUM SENSORS BASED ON SPIN DEFECTS COUPLED TO AN ARRAY OF SINGLE MOLECULE MAGNETIC CENTERS
- Simplified Explanation:**
The patent application describes a hybrid quantum sensor that includes a diamond layer with nitrogen-vacancy defect centers and a second layer with paramagnetic metal phthalocyanine.
- Key Features and Innovation:**
- Hybrid quantum sensor with diamond layer and paramagnetic metal phthalocyanine - First layer contains multiple nitrogen-vacancy defect centers - Second layer forms planar interface with first layer - Paramagnetic metal phthalocyanine includes transition metal
- Potential Applications:**
- Quantum sensing applications - Magnetic field detection - Nanoscale imaging
- Problems Solved:**
- Enhanced sensitivity in quantum sensing - Improved detection of magnetic fields - High-resolution imaging at the nanoscale
- Benefits:**
- Increased precision in measurements - Enhanced performance in quantum technologies - Versatile applications in various fields
- Commercial Applications:**
Title: "Advanced Quantum Sensors for High-Precision Applications" Potential commercial uses include: - Medical imaging - Environmental monitoring - Semiconductor industry
- Prior Art:**
Prior art related to hybrid quantum sensors and diamond-based sensors can be found in research articles and patents related to quantum sensing technologies.
- Frequently Updated Research:**
Ongoing research in the development of hybrid quantum sensors for improved sensitivity and applications in quantum technologies.
- Questions about Hybrid Quantum Sensors:**
1. How do hybrid quantum sensors differ from traditional quantum sensors? 2. What are the potential limitations of using paramagnetic metal phthalocyanine in quantum sensors?
Original Abstract Submitted
hybrid quantum sensors are provided. in some aspects, a hybrid quantum sensor comprises a first layer of diamond having multiple nitrogen-vacancy defect centers; and a second layer overlaying the first layer. the second layer forms a planar interface with the first layer, and includes at least one paramagnetic metal phthalocyanine. the at least one paramagnetic metal phthalocyanine comprises at least one transition metal.