Quantum Transistors Technology Ltd. (20240319524). Controlling the charge state of a crystal defect simplified abstract
Contents
Controlling the charge state of a crystal defect
Organization Name
Quantum Transistors Technology Ltd.
Inventor(s)
Controlling the charge state of a crystal defect - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240319524 titled 'Controlling the charge state of a crystal defect
The abstract of the patent application describes a quantum computing device that utilizes a crystalline material with a crystal defect and doped layers, along with a surface carrier donor material and an electrode to control the state of the crystal defect.
- The quantum computing device includes a crystalline material with a crystal defect and doped layers.
- A surface carrier donor material is placed on the surface of the crystalline material over the doped layers.
- An electrode is positioned over the surface carrier donor material to control the state of the crystal defect.
- Control circuitry is used to apply a voltage to the electrode for controlling the crystal defect.
Potential Applications: - Quantum computing - Advanced data processing - Cryptography
Problems Solved: - Enhancing quantum computing capabilities - Controlling and manipulating crystal defects for computing purposes
Benefits: - Improved quantum computing performance - Enhanced data processing speed and efficiency - Increased security for cryptographic applications
Commercial Applications: Title: "Advanced Quantum Computing Device for Enhanced Data Processing" This technology can be used in industries such as cybersecurity, finance, and scientific research for faster and more secure data processing.
Questions about Quantum Computing: 1. How does the presence of crystal defects impact the performance of a quantum computing device? Crystal defects can affect the stability and functionality of quantum computing devices, making it crucial to control and manipulate them effectively.
2. What role does the surface carrier donor material play in the operation of the quantum computing device? The surface carrier donor material helps in modulating the state of the crystal defect, contributing to the overall control and functionality of the device.
Original Abstract Submitted
a quantum computing device includes a crystalline material comprising a crystal defect and one or more doped layers in the crystalline material over the crystal defect in proximity to the crystal defect. a surface carrier donor material is disposed on a surface of the crystalline material over the one or more doped layers in proximity to the crystal defect. an electrode is disposed over the surface carrier donor material in proximity to the crystal defect. control circuitry is configured to apply a voltage to the electrode to control a state of the crystal defect.