SYSTEMS AND METHODS FOR NOISE-RESISTANT QUANTUM COMMUNICATION USING HYPERENTANGLEMENT

Organization Name

University of Maryland, College Park

Inventor(s)

Giuliano Scarcelli of Washington DC (US)

Yoon-Ho Kim of Gyeongsangbuk-do (KR)

Jin-Hun Kim of Gyeongsangbuk-do (KR)

SYSTEMS AND METHODS FOR NOISE-RESISTANT QUANTUM COMMUNICATION USING HYPERENTANGLEMENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240338466 titled 'SYSTEMS AND METHODS FOR NOISE-RESISTANT QUANTUM COMMUNICATION USING HYPERENTANGLEMENT

The abstract describes a system for noise-resistant quantum communication using hyperentanglement, which involves a quantum system with qubits, a processor, and memory storing instructions for accessing and obtaining hyperentanglement of qubits in at least two dimensions.

• Quantum system with qubits, processor, and memory
• Instructions stored in memory for accessing and obtaining hyperentanglement of qubits
• Hyperentanglement in at least two dimensions
• Transmission of hyperentangled qubits via a communication channel
• Communication of the signal with the first dimension and filtering based on the second dimension

Potential Applications: - Secure quantum communication - Quantum cryptography - Quantum teleportation

Problems Solved: - Noise resistance in quantum communication - Enhancing quantum communication security - Efficient quantum information processing

Benefits: - Improved data security - Enhanced communication reliability - Advanced quantum computing capabilities

Commercial Applications: Title: "Hyperentanglement Quantum Communication System for Secure Data Transmission" This technology could be utilized in industries such as: - Telecommunications - Cybersecurity firms - Research institutions focusing on quantum technologies

Questions about the technology: 1. How does hyperentanglement enhance quantum communication security? 2. What are the practical implications of using hyperentanglement in quantum communication systems?

Frequently Updated Research: Stay updated on the latest advancements in quantum communication technologies and hyperentanglement research to leverage the full potential of this innovative system.

Original Abstract Submitted

a system for noise-resistant quantum communication using hyperentanglement includes a quantum system that includes a plurality of qubits, a processor, and a memory. the memory includes instructions stored thereon, which, when executed by the processor, cause the quantum system to access a signal of a quantum system that includes a plurality of qubits and obtain hyperentanglement of the plurality of qubits via an entanglement source. the hyperentanglement of the plurality of qubits is in at least two dimensions, including a first dimension and a second dimension. the instructions, when executed, further cause the quantum system to transmit the hyperentangled plurality of qubits via a communication channel; perform a communication of the signal with the first dimension of the at least two dimensions; and filter results of the communicated signal based on the second dimension of the at least two dimensions.