DOUBLE INDIVIDUAL-ADDRESSING MULTI-BEAM RAMAN SYSTEM

Organization Name

IonQ, Inc.

Inventor(s)

Neal C. Pisenti of Laurel MD (US)

Kai Makoto Hudek of Hyattsville MD (US)

Kenneth Wright of Berwyn Heights MD (US)

Tan Liu of Frederick MD (US)

David Angeley of Charlottesville VA (US)

Nadir Shah of Reston VA (US)

Sarah Margaret Kreikemeier of Washington DC (US)

DOUBLE INDIVIDUAL-ADDRESSING MULTI-BEAM RAMAN SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240235693 titled 'DOUBLE INDIVIDUAL-ADDRESSING MULTI-BEAM RAMAN SYSTEM

The abstract describes a double individual-addressing multi-beam Raman system for use in quantum information processing (QIP) systems. This system includes two optical paths that adjust arrays of beams to individually address atomic-based qubits in a chain from different directions.

• First optical path includes a first multi-channel modulator (MCM), a first telecentric zoom lens, and a first interleaver.
• Second optical path includes a second MCM, a second telecentric zoom lens, and a second interleaver.
• Both paths adjust arrays of beams to individually address atomic-based qubits in a chain from different directions.

Potential Applications: - Quantum information processing systems - Quantum computing - Advanced data encryption

Problems Solved: - Efficient individual addressing of atomic-based qubits - Improved performance of quantum information processing systems

Benefits: - Enhanced precision in quantum information processing - Increased speed and accuracy in quantum computing tasks

Commercial Applications: - Development of high-performance quantum computers - Secure communication systems for sensitive data transmission

Questions about the technology: 1. How does the double individual-addressing multi-beam Raman system improve quantum information processing systems? 2. What are the potential challenges in implementing this technology in practical quantum computing applications?

Frequently Updated Research: - Ongoing studies on optimizing the performance of quantum information processing systems - Research on enhancing the security of quantum communication networks.

Original Abstract Submitted

aspects of the present disclosure relate generally to systems and methods for use in the implementation and/or operation of quantum information processing (qip) systems, and more particularly, to a double individual-addressing multi-beam raman system for use in qip systems. a technique is described in which a first muti-channel modulator (mcm), a first telecentric zoom lens, and a first interleaver that form a first optical path of the raman system that receives a first array of beams and adjusts the first array of beams to individually address atomic-based qubits in a chain from a first direction. moreover, a second mcm, a second telecentric zoom lens, and a second interleaver form a second optical path of the raman system that receives a second array of beams and adjusts the second arrays of beams to individually address the atomic-based qubits in the chain from a second direction different from the first direction.