17525842. SEMI-LOSSY PURCELL FILTER simplified abstract (International Business Machines Corporation)
Contents
SEMI-LOSSY PURCELL FILTER
Organization Name
International Business Machines Corporation
Inventor(s)
Joseph Robert Suttle of Chappaqua NY (US)
SEMI-LOSSY PURCELL FILTER - A simplified explanation of the abstract
This abstract first appeared for US patent application 17525842 titled 'SEMI-LOSSY PURCELL FILTER
Simplified Explanation
The abstract of the patent application describes a qubit system that includes a qubit located on a first substrate, a readout resonator coupled to the qubit and located on a substrate with the same attenuation constant as the first substrate, and a first Purcell filter coupled to the readout resonator and located on a second substrate. The first substrate has a lower attenuation constant than the second substrate.
- The qubit system includes a qubit, readout resonator, and Purcell filter.
- The qubit is located on a first substrate.
- The readout resonator is coupled to the qubit and located on a substrate with the same attenuation constant as the first substrate.
- The first Purcell filter is coupled to the readout resonator and located on a second substrate.
- The first substrate has a lower attenuation constant than the second substrate.
Potential Applications
- Quantum computing
- Quantum communication
- Quantum information processing
Problems Solved
- Minimizing attenuation in qubit systems
- Improving the performance of qubit systems
Benefits
- Enhanced qubit system performance
- Reduced signal loss
- Improved accuracy and reliability in quantum computing and communication
Original Abstract Submitted
A qubit system includes a qubit located on a first substrate. A readout resonator is coupled to the qubit and located on substrate having an attenuation constant the same as the first substrate. A first Purcell filter coupled to the readout resonator and located on a second substrate. The first substrate comprises a material that has an attenuation constant that is lower than that of the second substrate.