Quantum Accelerator Multi-Parametric Quantum Transduction Between Microwave, Optical, and Mechanical States
Abstract
We have developed radio frequency bulk and surface acoustic wave piezo-mechanical resonators for applications in quantum information. Our micromechanical devices are ultimately capable of supporting very long-lived quantum states that will act as an integrated quantum memory for microwave quantum information or intermediate state in microwave -optical quantum transduction. Our mechanical resonators are fabricated from low-loss single crystal quartz and are shielded from external loss with periodic structures acting as acoustic mirrors. These radio frequency devices will communicate with microwave quantum information systems via a superconducting nonlinear mixing element capable of high fidelity frequency transduction between microwave and radio frequency signals.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jun 09, 2022
- Accession Number
- AD1230827
Entities
People
- Michael Hatridge
- Thomas Purdy
Organizations
- University of Pittsburgh