Related papers: Quantum Optimal Control of Nuclear Spin Qudecimals in $^{87}\text{Sr}$

Quantum Optimal Control of Nuclear Spin Qudecimals in $^{87}\text{Sr}$

URL: http://arxiv.org/abs/2106.13705v2
Date: Thu, 14 Oct 2021 05:18:19 GMT
Title: Quantum Optimal Control of Nuclear Spin Qudecimals in $^{87}\text{Sr}$
Authors: Sivaprasad Omanakuttan, Anupam Mitra, Michael J. Martin and Ivan H Deutsch
Abstract summary: We study the ability to implement unitary maps on states of the $I=9/2$ nuclear spin in textsuperscript87Sr. We numerically study the quantum speed-limit, optimal parameters, and the fidelity of arbitrary state preparation and full SU maps.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We study the ability to implement unitary maps on states of the $I=9/2$ nuclear spin in \textsuperscript{87}Sr, a $d=10$ dimensional (qudecimal) Hilbert space, using quantum optimal control. Through a combination of nuclear spin-resonance and a tensor AC-Stark shift, by solely modulating the phase of a radio-frequency magnetic field, the system is quantum controllable. Alkaline earth atoms, such as \textsuperscript{87}Sr, have a very favorable figure-of-merit for such control due to narrow intercombination lines and the large hyperfine splitting in the excited states. We numerically study the quantum speed-limit, optimal parameters, and the fidelity of arbitrary state preparation and full SU(10) maps, including the presence of decoherence due to optical pumping induced by the light-shifting laser. We also study the use of robust control to mitigate some dephasing due to inhomogeneities in the light shift. We find that with an rf-Rabi frequency of $\Omega_\text{rf}$ and 0.5\% inhomogeneity in the the light shift we can prepare an arbitrary Haar-random state in a time $T={4.5}\pi/\Omega_\text{rf}$ with average fidelity $\langle \mathcal{F}_\psi \rangle =0.9992$, and an arbitrary Haar-random SU(10) map in a time $T=24\pi/\Omega_\text{rf}$ with average fidelity $\langle \mathcal{F}_U \rangle = 0.9923$.

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