SEMICONDUCTOR-SUPERCONDUCTOR HYBRID DEVICE INCLUDING AN ELECTRODE ARRAY

Organization Name

Microsoft Technology Licensing, LLC

Inventor(s)

Charles Masamed Marcus of Copenhagen (DK)

[[:Category:Andreas Simon P�schl of Copenhagen (DK)|Andreas Simon P�schl of Copenhagen (DK)]][[Category:Andreas Simon P�schl of Copenhagen (DK)]]

Alisa Danilenko of Copenhagen (DK)

SEMICONDUCTOR-SUPERCONDUCTOR HYBRID DEVICE INCLUDING AN ELECTRODE ARRAY - A simplified explanation of the abstract

This abstract first appeared for US patent application 18579259 titled 'SEMICONDUCTOR-SUPERCONDUCTOR HYBRID DEVICE INCLUDING AN ELECTRODE ARRAY

Simplified Explanation: The semiconductor-superconductor hybrid device consists of a nanowire channel within a semiconductor component, a superconductor component inducing superconductivity in the semiconductor through proximity effect, and an array of finger gates for localized control over electrical potentials in the nanowire segments.

• The device includes a semiconductor component with a nanowire channel.
• A superconductor component induces superconductivity in the semiconductor through proximity effect.
• An array of finger gates allows for localized control over electrical potentials in the nanowire segments.
• The device enables precise manipulation of electrical properties in the nanowire for various applications.
• Methods for fabricating and operating the semiconductor-superconductor hybrid device are also provided.

Potential Applications: 1. Quantum computing 2. High-speed electronics 3. Sensing and detection technologies 4. Energy-efficient devices 5. Advanced data processing systems

Problems Solved: 1. Enhanced control over electrical properties in nanowires 2. Improved efficiency in quantum computing applications 3. Facilitates the development of high-performance electronic devices

Benefits: 1. Increased precision in manipulating electrical potentials 2. Enables the creation of advanced semiconductor-superconductor hybrid devices 3. Enhances the performance of quantum computing systems

Commercial Applications: Title: Advanced Semiconductor-Superconductor Hybrid Devices for Quantum Computing and Electronics This technology can be utilized in: 1. Research institutions for quantum computing experiments 2. Electronics companies for developing high-speed devices 3. Sensor manufacturers for creating sensitive detection systems 4. Data processing companies for improving computational efficiency

Questions about Semiconductor-Superconductor Hybrid Devices: 1. How does the proximity effect induce superconductivity in the semiconductor component? 2. What are the key advantages of using an array of finger gates in this hybrid device?

Original Abstract Submitted

A semiconductor-superconductor hybrid device comprises a semiconductor component which, when in use, comprises a channel in the form of a nanowire; a superconductor component capable of inducing superconductivity in the semiconductor component by proximity effect; and an array of finger gates. The finger gates are individually operable to apply respective electrostatic fields to respective segments of the channel. The array of finger gates allows for localized control over electrical potentials in the corresponding segments of the nanowire. Also provided are methods of fabricating and operating the semiconductor-superconductor hybrid device.