20240013086. SQUARE ARRAYS OF OCTAGONAL THREE-DIMENSIONAL MICROWAVE CAVITIES FOR QUANTUM COMPUTING simplified abstract (Nord Quantique inc.)
SQUARE ARRAYS OF OCTAGONAL THREE-DIMENSIONAL MICROWAVE CAVITIES FOR QUANTUM COMPUTING
Organization Name
Inventor(s)
Dany Lachance-quirion of Sherbrooke (CA)
Julien Camirand Lemyre of Sherbrooke (CA)
SQUARE ARRAYS OF OCTAGONAL THREE-DIMENSIONAL MICROWAVE CAVITIES FOR QUANTUM COMPUTING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240013086 titled 'SQUARE ARRAYS OF OCTAGONAL THREE-DIMENSIONAL MICROWAVE CAVITIES FOR QUANTUM COMPUTING
Simplified Explanation
The patent application describes various embodiments of octagonal three-dimensional (3D) microwave cavities and square arrays for quantum computing. The system includes multiple 3D superconducting microwave cavities with an octagonal profile, allowing nearest-neighbor coupling of the cavities based on a square tiling. This enables the construction of larger planar arrays of three-dimensional cavities in a modular manner, increasing the number of bosonic qubits in a space-efficient way.
- The system provides 3D microwave cavities with an octagonal profile.
- The cavities can be coupled together based on a square tiling.
- The system allows for the assembly of larger planar arrays of cavities in a modular fashion.
- This modular approach increases the number of bosonic qubits efficiently.
Potential Applications:
- Quantum computing
- Quantum information processing
- Quantum simulations
Problems Solved:
- Limited number of bosonic qubits in quantum computing systems
- Space efficiency in constructing larger arrays of cavities
Benefits:
- Increased number of bosonic qubits in a space-efficient manner
- Modular assembly allows for scalability and flexibility in system design
- Nearest-neighbor coupling enables efficient communication between cavities
Original Abstract Submitted
described are various embodiments of octagonal three-dimensional (3d) microwave cavities and square arrays thereof for quantum computing. in some embodiments, the system provides a plurality of 3d superconducting microwave cavities having an octagonal profile that allows nearest-neighbor coupling of the cavities according to a square tiling. this allows to build or assemble larger planar arrays of three-dimensional cavities in a modular fashion so as to increase the number of bosonic qubits in a space-efficient manner.