Microsoft technology licensing, llc (20240282495). INDUCTOR TUNING IN SUPERCONDUCTING CIRCUITS simplified abstract
INDUCTOR TUNING IN SUPERCONDUCTING CIRCUITS
Organization Name
microsoft technology licensing, llc
Inventor(s)
Paige Frederick of Seattle WA (US)
Kenneth Reneris of Kirkland WA (US)
Matus Lipka of Kirkland WA (US)
Jamie Kuesel of Redmond WA (US)
INDUCTOR TUNING IN SUPERCONDUCTING CIRCUITS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240282495 titled 'INDUCTOR TUNING IN SUPERCONDUCTING CIRCUITS
The abstract of this patent application describes a system and method for determining the inductance of multiple inductors in a superconducting circuit, adjusting their widths based on coupled flux and device requirements.
- The system determines inductance for each inductor in a superconducting circuit.
- It calculates the amount of coupled flux between the inductors.
- Inductor widths are adjusted based on inductance, coupled flux, and device requirements.
- The innovation aims to optimize the performance of superconducting devices by fine-tuning inductor characteristics.
- This technology could lead to more efficient and reliable superconducting circuits.
Potential Applications: - Superconducting quantum computing - Magnetic resonance imaging (MRI) machines - Particle accelerators
Problems Solved: - Ensuring optimal inductance in superconducting circuits - Improving the efficiency and reliability of superconducting devices
Benefits: - Enhanced performance of superconducting circuits - Increased energy efficiency in superconducting applications - Improved overall system reliability
Commercial Applications: Title: "Enhancing Superconducting Circuit Performance with Advanced Inductor Optimization" This technology could be applied in industries such as healthcare, research, and energy to improve the performance of superconducting devices, leading to more efficient and reliable systems.
Questions about the technology: 1. How does adjusting inductor widths impact the overall performance of superconducting circuits? Adjusting inductor widths based on inductance, coupled flux, and device requirements can optimize the performance of superconducting circuits by ensuring proper functionality and efficiency.
2. What are the potential challenges in implementing this inductor optimization system in real-world superconducting applications? Implementing this system in real-world applications may require specialized knowledge and expertise in superconducting technology, as well as careful calibration to meet specific device requirements and performance goals.
Original Abstract Submitted
embodiments of the present disclosure provide systems and methods to determine an inductance for each of a plurality of inductors of a superconducting circuit. the plurality of inductors are routed between a plurality of superconducting devices. an amount of coupled flux between inductors of the plurality of inductors is determined. inductor widths along portions of the plurality of inductors are adjusted based on the inductance, the amount of coupled flux, and inductance requirements of the superconducting devices.