Related papers: Exploration of optimal hyperfine transitions for spin-wave storage in $^{167}$Er$^{3+}$:Y$_2$SiO$

Exploration of optimal hyperfine transitions for spin-wave storage in $^{167}$Er$^{3+}$:Y$_2$SiO$_5$

URL: http://arxiv.org/abs/2412.10126v2
Date: Wed, 12 Feb 2025 23:52:57 GMT
Title: Exploration of optimal hyperfine transitions for spin-wave storage in $^{167}$Er$^{3+}$:Y$_2$SiO$_5$
Authors: K. Matsuura, S. Yasui, R. Kaji, H. Sasakura, T. Tawara, S. Adachi,
Abstract summary: Under a magnetic field, the longest $Trm hyp$ at a particular ZEFOZ point is expected to be over 150 s (90 s) for site 1 (site 2) The experiment favors this trend in the position of the ZEFOZ points.
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Abstract: The dependence of the magnetic fluctuations and the spin coherence time $T_2^{\rm hyp}$ of the lowest Stark states $^4I_{15/2}\ (Z_1)$ in $^{167}$Er$^{3+}$:Y$_2$SiO$_5$ under zero magnetic field on Er concentration is numerically investigated in the range of 10 to 10$^6$ parts per million (ppm). The magnetic fluctuations surrounding the target Er electron generated by the dipole-dipole interaction due to two components, Y ions in host crystal and doped Er ions, are calculated by Monte-Carlo method. The former magnetic fluctuation is constant, while the latter depends on Er concentration. Due to these two components, the Er-concentration dependence of $T_2^{\rm hyp}$ at the zero first-order Zeeman (ZEFOZ) points saturates for crystals with Er concentration below 10 ppm and no extension of the $T_2^{\rm hyp}$ is expected without an external magnetic field. Under a magnetic field, the longest $T_2^{\rm hyp}$ at a particular ZEFOZ point is expected to be over 150 s (90 s) for site 1 (site 2), which is $\sim 10^5$ times longer than that at zero field for 10-ppm $^{167}$Er$^{3+}$:Y$_2$SiO$_5$. Interestingly, the ZEFOZ points under a magnetic field appear almost along the one direction for site 1 and almost in one plane for site 2 in optical frame $(D_1, D_2, b)$. The experiment favors this trend in the position of the ZEFOZ points which can be explained on the basis of the anisotropy of the effective spin Hamiltonian parameters. Finally, the tolerance of the ZEFOZ point at each site with the longest $T_2^{\rm hyp}$ against the errors in the applied magnetic field vector is evaluated numerically.

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