A milli-kelvin optical and microwave system for next generation quantum hybrids
Abstract
The proposed experiments will require the ability to do measurements in microwave (MW) and optical ranges at temperature as low as 10mK. Such conditions are needed for implementation of superconducting qubit and highly coherent magnons being probed by microwave and its conversion into optical photons. It can be done with dilutional refrigerator which has microwave channels and optical window. We will take advantage of a dilution fridge with optical and microwave access in Co-PI Yong Chens lab for this purpose. The essential ingredients missing from this dilution fridge environment are microwave probing circuitry and optical probing elements. Once added such an equipment will provide a unique tool to not only advance project objectives highlighted here but also many DoD-relevant projects pursued by a broad range of faculty at Purdue and our collaborators. In addition, the requested setup will provide a unique playground to train the next-generation of quantum-smart workforce for DoD.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Jun 09, 2021
- Source ID
- N000142112350
Entities
People
- Pramey Upadhyaya
Organizations
- Office of Naval Research
- Purdue University
- United States Navy