MAX-PLANCK-GESELLSCHAFT ZUR FÖRDERUNG DER WISSENSCHAFTEN E.V. (20240284805). METHOD FOR PRODUCING A SOLID-STATE COMPONENT, SOLID-STATE COMPONENT, QUANTUM COMPONENT AND APPARATUS FOR PRODUCING A SOLID-STATE COMPONENT simplified abstract
METHOD FOR PRODUCING A SOLID-STATE COMPONENT, SOLID-STATE COMPONENT, QUANTUM COMPONENT AND APPARATUS FOR PRODUCING A SOLID-STATE COMPONENT
Organization Name
MAX-PLANCK-GESELLSCHAFT ZUR FÖRDERUNG DER WISSENSCHAFTEN E.V.
Inventor(s)
Johannes Boschker of Stuttgart (DE)
Wolfgang Braun of Bietigheim-Bissingen (DE)
Jochen Mannhart of Böblingen (DE)
METHOD FOR PRODUCING A SOLID-STATE COMPONENT, SOLID-STATE COMPONENT, QUANTUM COMPONENT AND APPARATUS FOR PRODUCING A SOLID-STATE COMPONENT - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240284805 titled 'METHOD FOR PRODUCING A SOLID-STATE COMPONENT, SOLID-STATE COMPONENT, QUANTUM COMPONENT AND APPARATUS FOR PRODUCING A SOLID-STATE COMPONENT
The invention pertains to a method of creating a solid-state component, specifically for a quantum component like a qubit, with one or more thin films made of a first material. These films have a thickness ranging from a monolayer to 100 nm and are deposited on a substrate surface in a reaction chamber sealed from the ambient atmosphere. Additionally, the invention covers a solid-state component for a quantum component, comprising thin films of a first material with a thickness between a monolayer and 100 nm deposited on a substrate surface. Furthermore, it includes a quantum component incorporating this solid-state component and an apparatus for producing such a component.
- Thin films made of a first material with a thickness between a monolayer and 100 nm are used in the production of solid-state components.
- The production process takes place in a reaction chamber sealed from the ambient atmosphere.
- The solid-state component is designed for quantum applications, particularly qubits.
- The invention offers a method to create precise and controlled thin films for quantum components.
- The technology enables the development of advanced quantum components with improved performance and stability.
Potential Applications: - Quantum computing - Quantum information processing - Quantum communication systems
Problems Solved: - Precise deposition of thin films for quantum components - Enhanced performance and stability of quantum components
Benefits: - Improved efficiency and reliability of quantum components - Advancement in quantum technology and applications
Commercial Applications: Title: Advanced Quantum Components for Next-Generation Technologies This technology can be utilized in industries such as: - Information technology - Telecommunications - Defense and security
Questions about Quantum Components: 1. How does the thickness of the thin films impact the performance of the quantum component? 2. What are the potential challenges in scaling up the production of these solid-state components for commercial use?
Original Abstract Submitted
the invention relates to a method of producing a solid-state component, in particular for a quantum component, preferably for a qubit, comprising one or more thin films, the one or more thin films comprising a first material and each said film having a thickness selected between a monolayer and 100 nm and is deposited onto a substrate surface of a substrate, wherein the production process is carried out in a reaction chamber sealed with respect to the ambient atmosphere. further, the invention relates to a solid-state component, in particular for a quantum component, preferably for a qubit, comprising one or more thin films, one of the one or more thin films comprises a first material with a thickness between a monolayer and 100 nm and is deposited onto a substrate surface of a substrate. in addition, the invention relates to a quantum component comprising such a solid-state component according to the present invention and to an apparatus for producing such a solid-state component according to the present invention.