RECONFIGURABLE QUBIT ENTANGLING SYSTEM

Organization Name

Psiquantum, Corp.

Inventor(s)

Mercedes Gimeno-segovia of San Jose CA (US)

Terence Rudolph of San Francisco CA (US)

Mihir Pant of Mountain View CA (US)

Hector Bombin Palomo of Kyoto (JP)

Naomi Nickerson of San Francisco CA (US)

RECONFIGURABLE QUBIT ENTANGLING SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240303521 titled 'RECONFIGURABLE QUBIT ENTANGLING SYSTEM

The abstract describes a system with multiple measuring devices coupled to qubits and switches.

• The system includes a first input, a first qubit, and a first switch with multiple outputs.
• There are single qubit measuring devices and two qubit measuring devices connected to different outputs of the switches.
• The system allows for measuring and analyzing qubit states efficiently.

Potential Applications:

• Quantum computing
• Quantum communication
• Quantum cryptography

Problems Solved:

• Efficient measurement of qubit states
• Improved analysis of quantum systems

Benefits:

• Enhanced quantum computing capabilities
• Increased accuracy in quantum communication
• Enhanced security in quantum cryptography

Commercial Applications:

• Quantum computing research and development
• Quantum communication technology companies
• Quantum cryptography solutions providers

Prior Art: Prior research on qubit measurement devices and quantum systems can provide insights into similar technologies.

Frequently Updated Research: Stay updated on advancements in quantum computing, quantum communication, and quantum cryptography for potential improvements in the system.

Questions about the technology: 1. How does the system improve the measurement of qubit states? 2. What are the potential implications of this system in quantum computing research and development?

Original Abstract Submitted

according to some embodiments, a system includes a first input coupled to a first qubit and a first switch, wherein the first switch includes a first output, a second output, and a third output. the system further includes a first single qubit measuring device coupled to the first output of the first switch and a second single qubit measuring device coupled to a first output of a second switch. the system further includes a first two qubit measuring device coupled to the second output of the first switch and a second output of the second switch and a second two qubit measuring device coupled to the third output of the first switch and a third output of the second switch.