TRACKING AND MITIGATION OF QUASIPARTICLE POISONING ERRORS IN MAJORANA QUANTUM COMPUTING SYSTEMS

Organization Name

Microsoft Technology Licensing, LLC

Inventor(s)

Parsa Bonderson of Santa Barbara CA (US)

David Alexander Aasen of Santa Barbara CA (US)

Christina Paulsen Knapp of Goleta CA (US)

TRACKING AND MITIGATION OF QUASIPARTICLE POISONING ERRORS IN MAJORANA QUANTUM COMPUTING SYSTEMS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240378481 titled 'TRACKING AND MITIGATION OF QUASIPARTICLE POISONING ERRORS IN MAJORANA QUANTUM COMPUTING SYSTEMS

Simplified Explanation:

This patent application describes a computing system with a quantum computing device that utilizes Majorana islands to instantiate Majorana zero modes (MZMs). The system includes a controller that controls the quantum computing device to perform joint parity measurements and quasiparticle poisoning detection at the Majorana islands to generate error data.

• Majorana islands are used to instantiate Majorana zero modes (MZMs) in a quantum computing device.
• The controller controls the quantum computing device to perform joint parity measurements and quasiparticle poisoning detection at the Majorana islands.
• Error data, including quasiparticle poisoning indications, is generated based on the detection results.
• The controller updates the accumulated error state of the Majorana islands and performs update operations accordingly.

Potential Applications: - Quantum computing - Error detection and correction in quantum systems - Advanced computing technologies

Problems Solved: - Error detection and correction in quantum computing systems - Enhancing the reliability and accuracy of quantum computations

Benefits: - Improved error detection and correction capabilities in quantum computing - Enhanced performance and reliability of quantum systems

Commercial Applications: Title: Quantum Error Detection System This technology can be applied in industries such as: - Information technology - Data security - Scientific research

Prior Art: Readers can explore prior research on Majorana zero modes, quantum error detection, and quantum computing technologies.

Frequently Updated Research: Stay updated on the latest advancements in quantum error detection and Majorana zero modes research.

Questions about Quantum Error Detection System: 1. How does the use of Majorana islands enhance error detection in quantum computing systems? 2. What are the potential implications of quasiparticle poisoning detection in quantum computing?

Original Abstract Submitted

a computing system including a quantum computing device that includes majorana islands at which majorana zero modes (mzms) are instantiated. the computing system further includes a controller configured to control the quantum computing device to perform a joint parity measurement at two or more mzms. the controller is further configured to control the quantum computing device to perform quasiparticle poisoning (qpp) detection at the one or more majorana islands to thereby generate error data. the error data includes one or more qpp indications associated with the one or more majorana islands. the controller is further configured to receive the error data from the quantum computing device. the controller is further configured to update an accumulated error state of the one or more majorana islands based at least in part on the error data, and to perform an update operation based at least in part on the accumulated error state.