SUPERCONDUCTING QUANTUM CIRCUIT AND FABRICATION METHOD THEREOF, QUANTUM COMPUTER

Organization Name

ORIGIN QUANTUM COMPUTING TECHNOLOGY (HEFEI) CO., LTD

Inventor(s)

Liangliang Ma of Hefei (CN)

Bing You of Hefei (CN)

SUPERCONDUCTING QUANTUM CIRCUIT AND FABRICATION METHOD THEREOF, QUANTUM COMPUTER - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240341202 titled 'SUPERCONDUCTING QUANTUM CIRCUIT AND FABRICATION METHOD THEREOF, QUANTUM COMPUTER

Simplified Explanation: The patent application describes a superconducting quantum circuit and its fabrication method, as well as a quantum computer. The circuit includes superconducting elements and a superconducting quantum interference device.

Key Features and Innovation:

• Superconducting quantum circuit with first and second superconducting elements on a substrate.
• Superconducting quantum interference device with a bottom electrode, barrier layer, and top electrode forming a Josephson junction.
• Fabrication method for the superconducting quantum circuit.

Potential Applications: The technology can be used in quantum computing, quantum information processing, and advanced computing systems.

Problems Solved: The technology addresses the need for high-performance quantum computing systems and efficient quantum information processing.

Benefits:

• Enhanced performance in quantum computing applications.
• Improved efficiency in quantum information processing.
• Potential for advancements in computing technology.

Commercial Applications: The technology can be applied in industries such as data encryption, artificial intelligence, and scientific research.

Prior Art: Readers can explore prior research on superconducting quantum circuits, quantum interference devices, and quantum computing technologies.

Frequently Updated Research: Stay informed on the latest developments in superconducting quantum circuits and quantum computing by following relevant research publications and conferences.

Questions about Quantum Computing: 1. How does superconducting quantum circuitry differ from other quantum computing approaches? 2. What are the potential challenges in scaling up superconducting quantum circuits for practical applications?

Original Abstract Submitted

a superconducting quantum circuit and a fabrication method thereof, as well as a quantum computer, belong to the field of quantum computing technology. the superconducting quantum circuit comprises a first superconducting element () and a second superconducting element () formed on a substrate (), and a superconducting quantum interference device. the superconducting quantum interference device comprises: a bottom electrode () integrally connected to the second superconducting element (); a barrier layer () located on the bottom electrode (); and a top electrode () that is electrically connected at one end to the first superconducting element () and forms a partial overlapping area with the barrier layer () to obtain a josephson junction at the overlapping area.