English

Experimental noise filtering by quantum control

Quantum Physics 2015-06-19 v2

Abstract

Instabilities due to extrinsic interference are routinely faced in systems engineering, and a common solution is to rely on a broad class of filtering\textit{filtering} techniques in order to afford stability to intrinsically unstable systems. For instance, electronic systems are frequently designed to incorporate electrical filters composed of, e.g.\textit{e.g.} RLC components, in order to suppress the effects of out-of-band fluctuations that interfere with desired performance. Quantum coherent systems are now moving to a level of complexity where challenges associated with realistic time-dependent noise are coming to the fore. Unfortunately, standard control solutions involving feedback are generally impossible due to the strictures of quantum mechanics, and existing error-suppressing gate constructions generally rely on unphysical bang-bang controls or quasi-static error models that do not reflect realistic laboratory environments. In this work we use the theory of quantum control engineering and experiments with trapped 171^{171}Yb+^{+} ions to demonstrate the construction of novel noise filters\textit{noise filters} which are specifically designed to mitigate the effect of realistic time-dependent fluctuations on qubits \emph{during useful operations}. Starting with desired filter characteristics and the Walsh basis functions, we use a combination of analytic design rules and numeric search to construct time-domain noise filters tailored to a desired state transformation. Our results validate the generalized filter-transfer function framework for arbitrary quantum control operations, and demonstrate that it can be leveraged as an effective and efficient tool for developing novel robust control protocols.

Keywords

Cite

@article{arxiv.1404.0820,
  title  = {Experimental noise filtering by quantum control},
  author = {A. Soare and H. Ball and D. Hayes and J. Sastrawan and M. C. Jarratt and J. J. McLoughlin and X. Zhen and T. J. Green and M. J. Biercuk},
  journal= {arXiv preprint arXiv:1404.0820},
  year   = {2015}
}

Comments

Related work available from http://www.physics.usyd.edu.au/~mbiercuk/Publications.html

R2 v1 2026-06-22T03:41:58.047Z