RQL Controlled Dual Rail Qubit Architecture
PANEL · EVW-T52 · ID: EVW-T52
At Northrop Grumman, we are defining possible at the bleeding edge of superconducting digital and quantum technology. Northrop Grumman has developed Reciprocal Quantum Logic (RQL), an extremely energy efficient superconducting logic family. We will provide an overview of RQL and describe how we use it to perform microwave-free universal control of superconducting dual-rail qubits.
Panel speakers:
Jeff Botimer, Sr. Staff Physicist
Zachary Keane, NG Fellow
Aaron Lee, Sr. Staff Physicist
Ed Leonard, Sr. Staff Physicist
Jim Medford, Consulting Physicist
Presentations
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Jeff Botimer - RQL Controlled Dual Rail Qubit Architecture
Oral-In-person
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Presenters
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Jeffrey Botimer
- Northrop Grumman Mission Systems
Authors
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Jeffrey Botimer
- Northrop Grumman Mission Systems
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Zachary Keane - RQL Controlled Dual Rail Qubit Architecture
Oral-In-person
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Presenters
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Zachary Keane
- Northrop Grumman Mission Systems
Authors
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Zachary Keane
- Northrop Grumman Mission Systems
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Aaron Lee - RQL Controlled Dual Rail Qubit Architecture
Oral-In-person
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Presenters
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Aaron Lee
- Northrop Grumman - Mission Systems
Authors
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Aaron Lee
- Northrop Grumman - Mission Systems
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Ed Leonard - RQL Controlled Dual Rail Qubit Architecture
Oral-In-person
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Presenters
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Edward Leonard
- Northrop Grumman Mission Systems
Authors
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Edward Leonard
- Northrop Grumman Mission Systems
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Jim Medford - RQL Controlled Dual Rail Qubit Architecture
Oral-In-person
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Presenters
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James Medford
- Northrop Grumman Mission Systems
Authors
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James Medford
- Northrop Grumman Mission Systems
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Tony Przybysz: RQL Controlled Dual Rail Qubit Architecture
Oral-In-person
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Presenters
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Anthony Przybysz
- Northrop Grumman Mission Systems
Authors
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Anthony Przybysz
- Northrop Grumman Mission Systems
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