Author
Listed:
- L. E. de Clercq
(Institute for Quantum Electronics, ETH Zürich)
- R. Oswald
(Institute for Quantum Electronics, ETH Zürich)
- C. Flühmann
(Institute for Quantum Electronics, ETH Zürich)
- B. Keitch
(Institute for Quantum Electronics, ETH Zürich
Present address: Department of Engineering Science, University of Oxford, Parks Road, Oxford OX1 3PJ, UK)
- D. Kienzler
(Institute for Quantum Electronics, ETH Zürich)
- H. -Y. Lo
(Institute for Quantum Electronics, ETH Zürich)
- M. Marinelli
(Institute for Quantum Electronics, ETH Zürich)
- D. Nadlinger
(Institute for Quantum Electronics, ETH Zürich)
- V. Negnevitsky
(Institute for Quantum Electronics, ETH Zürich)
- J. P. Home
(Institute for Quantum Electronics, ETH Zürich)
Abstract
The Hamiltonian of a closed quantum system governs its complete time evolution. While Hamiltonians with time-variation in a single basis can be recovered using a variety of methods, for more general Hamiltonians the presence of non-commuting terms complicates the reconstruction. Here using a single trapped ion, we propose and experimentally demonstrate a method for estimating a time-dependent Hamiltonian of a single qubit. We measure the time evolution of the qubit in a fixed basis as a function of a time-independent offset term added to the Hamiltonian. The initially unknown Hamiltonian arises from transporting an ion through a static laser beam. Hamiltonian estimation allows us to estimate the spatial beam intensity profile and the ion velocity as a function of time. The estimation technique is general enough that it can be applied to other quantum systems, aiding the pursuit of high-operational fidelities in quantum control.
Suggested Citation
L. E. de Clercq & R. Oswald & C. Flühmann & B. Keitch & D. Kienzler & H. -Y. Lo & M. Marinelli & D. Nadlinger & V. Negnevitsky & J. P. Home, 2016.
"Estimation of a general time-dependent Hamiltonian for a single qubit,"
Nature Communications, Nature, vol. 7(1), pages 1-8, September.
Handle:
RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms11218
DOI: 10.1038/ncomms11218
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