Back to Search
Start Over
Synthetic high angular momentum spin dynamics in a microwave oscillator
- Publication Year :
- 2024
-
Abstract
- Spins and oscillators are foundational to much of physics and applied sciences. For quantum information, a spin 1/2 exemplifies the most basic unit, a qubit. High angular momentum spins and harmonic oscillators provide multi-level manifolds (e.g., qudits) which have the potential for hardware-efficient protected encodings of quantum information and simulation of many-body quantum systems. In this work, we demonstrate a new quantum control protocol that conceptually merges these disparate hardware platforms. Namely, we show how to modify a harmonic oscillator on-demand to implement a continuous range of generators associated to resonant driving of a harmonic qudit, and then specifically design a harmonic multi-level spin degree of freedom. The synthetic spin is verified by demonstration of spin coherent (SU(2)) rotations and comparison to other manifolds like simply-truncated oscillators. Our scheme allows universal control of the qudit, and, for the first time, we use linear, harmonic operations to accomplish four logical gates on a harmonic qudit encoding. Our results show how motion on a closed Hilbert space can be useful for quantum information processing and opens the door to superconducting circuit simulations of higher angular momentum quantum magnetism.<br />Comment: Updated some text and references, some new data
- Subjects :
- Quantum Physics
Subjects
Details
- Database :
- arXiv
- Publication Type :
- Report
- Accession number :
- edsarx.2405.15695
- Document Type :
- Working Paper