18424134. ELECTRONIC CIRCUIT AND COMPUTING DEVICE simplified abstract (KABUSHIKI KAISHA TOSHIBA)
Contents
- 1 ELECTRONIC CIRCUIT AND COMPUTING DEVICE
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 ELECTRONIC CIRCUIT AND COMPUTING DEVICE - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Commercial Applications
- 1.9 Questions about the Technology
- 1.10 Original Abstract Submitted
ELECTRONIC CIRCUIT AND COMPUTING DEVICE
Organization Name
Inventor(s)
HAYATO Goto of Kawasaki Kanagawa (JP)
KENTARO Kubo of Kawasaki Kanagawa (JP)
ELECTRONIC CIRCUIT AND COMPUTING DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18424134 titled 'ELECTRONIC CIRCUIT AND COMPUTING DEVICE
Simplified Explanation
An electronic circuit with a unique element section is described in the patent application. The element section includes a first coupler, a first resonator, and a first conductive member. The first coupler is designed to be capacitively coupled with two qubits, while the first resonator is inductively coupled with the coupler. The first conductive member is capacitively coupled with the first resonator to input an excitation signal for the resonator.
- The electronic circuit includes a first coupler, a first resonator, and a first conductive member.
- The first coupler is capacitively coupled with two qubits and includes a loop.
- The first resonator is inductively coupled with the loop of the first coupler.
- The first conductive member is capacitively coupled with the first resonator to input an excitation signal.
Potential Applications
This technology could be applied in quantum computing systems, communication devices, and sensors that require precise control and manipulation of qubits and resonators.
Problems Solved
This innovation addresses the need for efficient and precise coupling between qubits and resonators in electronic circuits, enabling better performance and control in quantum computing and other applications.
Benefits
- Improved efficiency in coupling qubits and resonators - Enhanced control and manipulation of electronic circuits - Potential for advancements in quantum computing and communication technologies
Commercial Applications
Title: Quantum Computing Systems and Communication Devices This technology could be utilized in the development of advanced quantum computing systems, high-speed communication devices, and sensitive sensors for various industries such as healthcare, finance, and telecommunications.
Questions about the Technology
What are the potential commercial applications of this electronic circuit technology?
This technology could be applied in quantum computing systems, communication devices, and sensors that require precise control and manipulation of qubits and resonators.
How does this innovation improve the efficiency of coupling qubits and resonators in electronic circuits?
This innovation enables efficient and precise coupling between qubits and resonators through capacitive and inductive interactions, enhancing the overall performance and control of the electronic circuit.
Original Abstract Submitted
According to one embodiment, an electronic circuit includes an element section. The element section includes a first coupler, a first resonator, and a first conductive member. The first coupler is configured to be capacitively coupled with a first qubit and a second qubit. The first coupler includes a loop. The first resonator is configured to be inductively coupled with the loop. The first conductive member is configured to be capacitively coupled with the first resonator. An excitation signal for exciting the first resonator is inputted to the first conductive member.
