Inventor
CHOW JERRY M
US86 patents
⚠️ This page may combine multiple inventors who share the name “CHOW JERRY M”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
IBM
47 patentsUS10491221B1Nov 26, 2019
Tunable microwave resonator for qubit circuits
IBM47 citations98
US9735776B1Aug 15, 2017
Scalable qubit drive and readout
IBM86 citations98
US9444430B1Sep 13, 2016
Cavity filtered qubit
IBM47 citations98
US9524470B1Dec 20, 2016
Modular array of vertically integrated superconducting qubit devices for scalable quantum computing
IBM51 citations97
US9953269B2Apr 24, 2018
Modular array of vertically integrated superconducting qubit devices for scalable quantum computing
IBM13 citations92
US9503063B1Nov 22, 2016
Mechanically tunable superconducting qubit
IBM19 citations92
US9219298B2Dec 22, 2015
Removal of spurious microwave modes via flip-chip crossover
IBM14 citations92
US8872360B2Oct 28, 2014
Multiple-qubit wave-activated controlled gate
IBM30 citations91
US10956828B2Mar 23, 2021
Transmon qubit flip-chip structures for quantum computing devices
IBM11 citations86
US10340438B2Jul 2, 2019
Laser annealing qubits for optimized frequency allocation
IBM14 citations86
US10622536B2Apr 14, 2020
Reducing qubit frequency collisions through lattice design
IBM11 citations85
US10833680B2Nov 10, 2020
Tunable microwave resonator for qubit circuits
IBM6 citations84
US10601096B2Mar 24, 2020
Reduced thermal resistance attenuator on high-thermal conductivity substrates for quantum applications
IBM5 citations84
US10573685B1Feb 25, 2020
Symmetrical qubits with reduced far-field radiation
IBM9 citations84
US10528885B2Jan 7, 2020
Cross-resonance fan-out for efficiency and hardware reduction
IBM7 citations84
US10304005B2May 28, 2019
Modular array of vertically integrated superconducting qubit devices for scalable quantum computing
IBM5 citations84
US10304004B2May 28, 2019
Modular array of vertically integrated superconducting qubit devices for scalable quantum computing
IBM3 citations84
US10169714B2Jan 1, 2019
Modular array of vertically integrated superconducting qubit devices for scalable quantum computing
IBM5 citations84
US10171077B2Jan 1, 2019
Scalable qubit drive and readout
IBM6 citations84
US9509280B1Nov 29, 2016
Cavity filtered qubit
IBM5 citations84
US9455392B2Sep 27, 2016
Method of fabricating a coplanar waveguide device including removal of spurious microwave modes via flip-chip crossover
IBM12 citations84
US11170317B2Nov 9, 2021
Procedure for systematic tune up of crosstalk in a cross-resonance gate and system performing the procedure and using results of the same
IBM10 citations83
US9935252B2Apr 3, 2018
Mechanically tunable superconducting qubit
IBM5 citations83
US9344092B2May 17, 2016
Tunable superconducting notch filter
IBM12 citations83
US11244241B1Feb 8, 2022
Quantum device facilitating a cross-resonance operation in a dispersive regime
IBM12 citations82
US9432024B2Aug 30, 2016
Multiple-qubit wave-activated controlled gate
IBM8 citations82
US12117130B2Oct 15, 2024
Transfer port system for cryogenic environments
IBM2 citations73
US11802663B2Oct 31, 2023
Multiple cryogenic systems sectioned within a common vacuum space
IBM2 citations73
US11621466B2Apr 4, 2023
Well thermalized stripline formation for high-density connections in quantum applications
IBM1 citations73
US11443222B2Sep 13, 2022
Cross-resonance fan-out for efficiency and hardware reduction
IBM5 citations73
US11189435B2Nov 30, 2021
Switch device facilitating frequency shift of a resonator in a quantum device
IBM2 citations73
US10978769B2Apr 13, 2021
Well thermalized stripline formation for high-density connections in quantum applications
IBM2 citations73
US10971790B2Apr 6, 2021
Well thermalized microstrip formation for flexible cryogenic microwave lines in quantum applications
IBM2 citations73
US10964993B2Mar 30, 2021
Cryogenic-stripline microwave attenuator
IBM2 citations73
US10957737B2Mar 23, 2021
Symmetrical qubits with reduced far-field radiation
IBM3 citations73
US10916690B2Feb 9, 2021
Electrical leads for trenched qubits
IBM2 citations73
US10784553B2Sep 22, 2020
Well thermalized stripline formation for high-density connections in quantum applications
IBM2 citations73
US10749235B2Aug 18, 2020
Well thermalized microstrip formation for flexible cryogenic microwave lines in quantum applications
IBM2 citations73
US10692795B2Jun 23, 2020
Flip chip assembly of quantum computing devices
IBM4 citations73
US10599805B2Mar 24, 2020
Superconducting quantum circuits layout design verification
IBM2 citations73
US10592814B2Mar 17, 2020
Automatic design flow from schematic to layout for superconducting multi-qubit systems
IBM2 citations73
US10505245B2Dec 10, 2019
Microwave attenuators on high-thermal conductivity substrates for quantum applications
IBM2 citations73
US10476122B2Nov 12, 2019
Cryogenic-stripline microwave attenuator
IBM3 citations73
US10289960B2May 14, 2019
Modular array of vertically integrated superconducting qubit devices for scalable quantum computing
IBM2 citations73
US9531055B2Dec 27, 2016
Removal of spurious microwave modes via flip-chip crossover
IBM4 citations73
US9218571B2Dec 22, 2015
Frequency separation between qubit and chip mode to reduce purcell loss
IBM4 citations73
US9059305B2Jun 16, 2015
Planar qubits having increased coherence times
IBM5 citations73
CHOW JERRY M
2 patentsGLOBALFOUNDRIES INC
1 patentShowing the top 50 of 86 patents by PatentIndex Score.