(DURIP) DILUTION CRYOSTAT FOR QUANTUM ADDRESSABLE MEMORY
Abstract
We are developing quantum addressable memory based on superconducting circuits. Quantum addressable memory is a unique component within the family of quantum circuits as it requires many qubits but relatively low entanglement. This matches the current capabilities of the field, which can reliably make excellent qubits but has not quite reached the error correction threshold, required for fully entangling very large systems. A further challenge to employing larger numbers of qubits (especially in academia) is the cost and time associated with the cryogenic wiring and components supporting the quantum circuitry. We are requesting funds to purchase a dilution cryostat in which to carry out experiments studying quantum addressable memory. This will allow us to more quickly iterate on experiments than if we must share space in existing cryostats and will also allow us to support larger circuits than our existing systems. In addition to supporting our Q?RAM experiments, we will develop PCB integrated cryogenic wiring solutions to enable denser, more thermally efficient, and more cost effective solutions for wiring large quantum circuits.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Apr 20, 2023
- Source ID
- FA95502210470
Entities
People
- David Schuster
Organizations
- Air Force Office of Scientific Research
- United States Air Force
- University of Chicago