Counter-diabatic Control as a Universal Quantum Design Tool
Abstract
Rapid experimental progress has pushed quantum technologies to a scale at which these systems are becoming increasingly hard to simulate classically. Remarkably, one of the central challenges for quantum technologies, is the search for practical applications of these quantum machines. A handful of algorithms have been proposed so far, and while some of them have been demonstrated experimentally, their bearing on real world problems remains unclear. In this project we will investigate counter-diabatic (CD) control methods as a universal tool to harvest the vast amount of information contained in strongly entangled quantum systems. We will focus on developing and testing theoretical ideas in close collaboration with experiment and with a strong focus on developing fast and robust controls for: (i) useful algorithms for current quantum machines (ii) state engineering for quantum metrology and (iii) error mitigation on near-term devices.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Jan 21, 2022
- Source ID
- FA95502110236XX0
Entities
People
- Dries Sels
Organizations
- Air Force Office of Scientific Research
- New York University
- United States Air Force