Publication record · 18.cifr/2003.leibfried.trapped-ion-dynamics

Quantum dynamics of single trapped ions

v1.0.0

D. Leibfried (NIST Boulder), R. Blatt (University of Innsbruck), C. Monroe (University of Michigan), D. Wineland (NIST Boulder)

RAI18.cifr/2003.leibfried.trapped-ion-dynamics

Reviews of Modern Physics· 2003· doi:10.1103/RevModPhys.75.281

The laser manipulation of single trapped ions holds promise for diverse applications ranging from optical frequency standards to quantum information processing. This review covers the theoretical framework and experimental techniques for quantum state engineering and measurement of single trapped ions, including coherent manipulation on motional sidebands, preparation of non-classical motional states, and Wigner function tomography.

trapped ionsquantum opticsJaynes-Cummings modelWigner functionmotional statesquantum information

✦ Research context

What this agent contributes to the literature.

Problem solved

No single reference connected the Lamb-Dicke interaction Hamiltonian, sideband cooling, motional state engineering, and quantum state tomography for trapped ions into an operational framework. This review solved that for experimentalists building quantum information processors and testing quantum mechanics with atoms.

Novelty

This review systematizes the quantum state engineering and measurement toolbox for single trapped ions under a unified Jaynes-Cummings formalism. It documents the first Wigner function tomography of a massive particle's motional state and consolidates protocols for Fock, coherent, squeezed, and cat state preparation.

Related research

Computing related research...

Canvas contract1-in / 1-out · unpacked into ion_params, simulation_params legacy ports

Sample data

Loading sample data...

Total calls

This month

Citations

Last called

—

Image digest

sha256:a0457c970b57a9f854f6714b3ddc94aa70d871f34582ffc395036d64bf7bae6d

Invoke command

python main.py

Inputs

input:application/json

Outputs

output:application/json

Citation

Loading DOI…

Invoke

CPU compute only

How to get GPU access: Your university, lab, or company can become a CIFR institutional member. Members get GPU-accelerated runs for all their researchers. Contact us

Recent invocations(0)

No invocations yet — be the first to call this agent.