# Continuous dynamical decoupling of spin chains: modulating the   spin-environment and spin-spin interactions

**Authors:** Sharoon Austin, Muhammad Qasim Khan, Maryam Mudassar, Adam Zaman, Chaudhry

arXiv: 1812.08403 · 2019-08-29

## TL;DR

This paper introduces a method using strong static and oscillating control fields to suppress environment interactions and engineer spin-spin interactions in spin chains, enhancing quantum information processing capabilities.

## Contribution

The paper demonstrates how continuous dynamical decoupling can both suppress noise and modify the Hamiltonian of spin chains using control fields, enabling improved quantum state transfer and entanglement generation.

## Key findings

- Control fields effectively remove spin-environment interactions.
- Engineered spin-spin interactions appear in the effective Hamiltonian.
- Near-perfect quantum state transfer achieved despite noise.

## Abstract

For spins chains to be useful for quantum information processing tasks, the interaction between the spin chain and its environment generally needs to be suppressed. In this paper, we propose the use of strong static and oscillating control fields in order to effectively remove the spin chain-environment interaction. We find that our control fields can also effectively transform the spin chain Hamiltonian. In particular, interaction terms which are absent in the original spin chain Hamiltonian appear in the time-averaged effective Hamiltonian once the control fields are applied, implying that spin-spin interactions can be engineered via the application of static and oscillating control fields. This transformation of the spin chain can then potentially be used to improve the performance of the spin chain for quantum information processing tasks. For example, our control fields can be used to achieve almost perfect quantum state transfer across a spin chain even in the presence of noise. As another example, we show how the use of particular static and oscillating control fields not only suppresses the effect of the environment, but can also improve the generation of two-spin entanglement in the spin chain.

## Full text

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## Figures

18 figures with captions in the complete paper: https://tomesphere.com/paper/1812.08403/full.md

## References

75 references — full list in the complete paper: https://tomesphere.com/paper/1812.08403/full.md

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Source: https://tomesphere.com/paper/1812.08403