ROSE optical memory protocol in the waveguide of a Tm : YAG crystal
Minnegaliev M. M.1, Pavlov A. V.1, Gersimov K. I. 1, Moiseev E. S. 1, Skryabin N. N. 2, Kalinkin A. A.2, Kulik S. P.2,3, Moiseev S. A. 1
1Kazan Quantum Center, Tupolev Kazan National Research Technical University, Kazan, Russia
2Quantum Technologies Center, Faculty of Physics, Lomonosov Moscow State University, Moscow, Russia
3Laboratory of quantum engineering of light, South Ural State University (SUSU), Chelyabinsk, Russia
Email: mansur@kazanqc.org, kigerasimov@mail.ru

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In this work, optical spectroscopy of thulium ions in a single-mode optical waveguide fabricated in a Tm3+ : Y3Al5O12 crystal using the femtosecond laser printing method was carried out and an optical quantum memory protocol was demonstrated in a revival of silenced echo scheme. An analysis of the experimental data indicates the presence of instantaneous spectral diffusion at a thulium ion concentration of less than 0.01%, a weak effect of imperfections in the formed waveguide on the lifetime of the optical memory, and indicates the possibility of achieving a high efficiency of input signal recovery in the implemented waveguide scheme of the protocol. Keywords: rare-earth ions, photon echo, optical quantum memory, ROSE, femtosecond laser printing. DOI: 10.61011/EOS.2023.05.56512.74-22
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