QUANTUM CHIP OPTOELECTRONIC INTERPOSER

Organization Name

University of Southern California

Inventor(s)

Ajey Poovannummoottil Jacob of Los Angeles CA (US)

Akhilesh Ramlaut Jaiswal of Los Angeles CA (US)

Ramesh Kudalippalliyalil of Los Angeles CA (US)

QUANTUM CHIP OPTOELECTRONIC INTERPOSER - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240220840 titled 'QUANTUM CHIP OPTOELECTRONIC INTERPOSER

The abstract describes a patent application for a heterogeneous quantum device that includes an interposer, qubit sources, and an electro-optic quantum transducer. The transducer acts as a frequency converter, converting microwave frequency to optical frequency and is coupled to the qubit sources through superconducting capacitive or inductive coupling.

• The patent application describes a quantum device with an interposer, qubit sources, and an electro-optic quantum transducer.
• The electro-optic quantum transducer serves as a frequency converter, converting microwave frequency to optical frequency.
• The transducer is coupled to the qubit sources using superconducting capacitive or inductive coupling.
• This innovation enables the conversion of microwave signals to optical signals in a quantum device.

Potential Applications: - Quantum computing - Quantum communication - Quantum sensing

Problems Solved: - Efficient conversion of microwave to optical signals - Enhanced quantum device performance

Benefits: - Improved quantum device functionality - Increased efficiency in quantum signal processing

Commercial Applications: Title: Quantum Signal Processing Device for Advanced Communication Systems This technology can be used in advanced communication systems, quantum computing, and quantum sensing applications, leading to improved performance and efficiency in these fields.

Questions about the technology: 1. How does the electro-optic quantum transducer improve the functionality of the quantum device? 2. What are the potential commercial applications of this quantum technology?

Frequently Updated Research: Stay updated on the latest advancements in quantum signal processing and quantum communication technologies to leverage the full potential of this innovation.

Original Abstract Submitted

a heterogeneous quantum device includes an interposer, a qubit sources disposed over the interposer, and an electro-optic quantum transducer disposed over the interposer. the electro-optic quantum transducer being a frequency converter that converts microwave frequency to optical frequency coupled to the qubit sources by superconducting capacitive or inductive coupling.