COLD ECHO QUBIT SYSTEM AND METHOD OF OPERATION

Organization Name

COLORADO SCHOOL OF MINES

Inventor(s)

Eliot Kapit of Golden CO (US)

Vadim Oganesyan of New York NY (US)

COLD ECHO QUBIT SYSTEM AND METHOD OF OPERATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240013088 titled 'COLD ECHO QUBIT SYSTEM AND METHOD OF OPERATION

Simplified Explanation

The patent application describes various embodiments of protected small logical qubit architectures and superconducting devices. These architectures and devices aim to suppress all single qubit error channels and can be operated autonomously without measurement or feedback. The logical qubit is designed to be compatible with strong, tunable interactions for fast gate operations. The control structure is simple and robust, and the methods, devices, and systems can endure small variations in device parameters to ensure repeatability and scalability.

• The patent application describes protected small logical qubit architectures and superconducting devices.
• These architectures and devices aim to suppress all single qubit error channels.
• The logical qubit can be operated autonomously without measurement or feedback.
• The logical qubit is compatible with strong, tunable interactions for fast gate operations.
• The control structure is simple and robust.
• The methods, devices, and systems can endure small variations in device parameters for repeatability and scalability.

Potential Applications

• Quantum computing
• Quantum information processing
• Error correction in quantum systems

Problems Solved

• Suppression of single qubit error channels
• Autonomous operation without measurement or feedback
• Fast gate operations with strong, tunable interactions
• Simple and robust control structure
• Enduring small variations in device parameters for repeatability and scalability

Benefits

• Improved reliability and accuracy in quantum computing and quantum information processing
• Faster gate operations for more efficient quantum computations
• Simplified control structure for easier implementation and operation
• Increased repeatability and scalability in quantum systems.

Original Abstract Submitted

describe herein are various embodiments of protected small logical qubit architectures and superconducting devices for use therewith. the disclosed architectures, methods, devices, and systems, using their most coherent component parts as a baseline, may be useful in suppress all single qubit error channels, and once calibrated can be operated in a fully autonomous manner with no measurement or feedback. applicant's logical qubit may be compatible with strong, tunable interactions so that fast gates can be performed. in many embodiments, the control structure may be both simple, and robust. in many embodiments, the disclosed methods, devices, and systems are able to endure small variations in the device parameters, to ensure repeatability and scalability.