QUANTUM CIRCUIT, QUANTUM CHIP, AND QUANTUM COMPUTER

Organization Name

Origin Quantum Computing Technology (HEFEI) Co., Ltd.

Inventor(s)

Weicheng Kong of Anhui (CN)

Song Ll of Anhiu (CN)

Zhenquan Yang of Anhui (CN)

Junxiu Bu of Anhui (CN)

QUANTUM CIRCUIT, QUANTUM CHIP, AND QUANTUM COMPUTER - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240322823 titled 'QUANTUM CIRCUIT, QUANTUM CHIP, AND QUANTUM COMPUTER

Simplified Explanation

The patent application describes a quantum circuit design that includes qubits with adjustable capacitors, allowing for more flexible and spatially efficient circuit layouts.

• The quantum circuit includes qubits with coupled adjacent qubits.
• Each qubit consists of capacitors, including a first capacitor and a second capacitor.
• The capacitors are adjustable to enhance design flexibility and layout efficiency.
• A first device in each qubit includes a first squid and a third capacitor connected in parallel.
• Parameters of the capacitors can be adjusted to optimize the circuit design.

Key Features and Innovation

• Quantum circuit design with adjustable capacitors for enhanced flexibility.
• Improved spatial efficiency in layout design.
• Parallel connection of capacitors in qubits for optimized performance.
• Enhanced adjustability of circuit parameters for better functionality.

Potential Applications

The technology can be applied in:

• Quantum computing systems.
• Quantum communication networks.
• Quantum information processing.

Problems Solved

• Limited spatial flexibility in quantum circuit design.
• Inefficient layout of qubit circuits.
• Lack of adjustability in circuit parameters.

Benefits

• Enhanced design flexibility.
• Improved spatial efficiency.
• Optimized circuit performance.
• Better functionality in quantum systems.

Commercial Applications

Title: Quantum Circuit Design with Adjustable Capacitors This technology can be utilized in:

• Quantum computing hardware development.
• Quantum communication infrastructure.
• Research and development in quantum information processing.

Prior Art

Readers can explore prior research on quantum circuit design, adjustable capacitors, and quantum computing systems for related information.

Frequently Updated Research

Stay updated on the latest advancements in quantum circuit design, adjustable capacitors, and quantum computing technologies for cutting-edge developments.

Questions about Quantum Circuit Design with Adjustable Capacitors

How do adjustable capacitors improve quantum circuit design?

Adjustable capacitors allow for more flexible and spatially efficient layouts in quantum circuits. By adjusting the parameters of the capacitors, designers can optimize the performance of the circuit and enhance its functionality.

What are the potential applications of quantum circuits with adjustable capacitors?

Quantum circuits with adjustable capacitors can be applied in various fields such as quantum computing, communication networks, and information processing. The technology offers improved design flexibility and performance in quantum systems.

Original Abstract Submitted

a quantum circuit, a quantum chip, and a quantum computer. the quantum circuit includes qubits, adjacent qubits being coupled, and each of the qubits including: a first capacitor, a first end of the first capacitor being grounded; a second capacitor, a first end of the second capacitor and the first end of the first capacitor being commonly grounded; and a first device, including a first squid and a third capacitor that are connected in parallel, wherein parallel-connected first ends of the first squid and the third capacitor are connected to a second end of the first capacitor, and parallel-connected second ends of the first squid and the third capacitor are connected to a second end of the second capacitor. according to the present disclosure, parameters of at least one of a plurality of capacitors in a qubit circuit can be adjusted, so that the design of the capacitor is more flexible and less spatially limited, which facilitates design and layout of other circuit structures.