I. V. Zalivako, I. A. Semerikov, A. S. Borisenko, M. D. Aksenov, K. Yu. Khabarova, N. N. Kolachevsky, “Experimental study of the optical qubit on the $435$-nm quadrupole transition in the $^{171}$Yb$^{+}$ ion”, Pis'ma v Zh. Èksper. Teoret. Fiz., 114:2 (2021), 53–59; JETP Letters, 114:2 (2021), 59

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Pis'ma v Zhurnal Èksperimental'noi i Teoreticheskoi Fiziki, 2021, Volume 114, Issue 2, Pages 53–59
DOI: https://doi.org/10.31857/S1234567821140019 (Mi jetpl6466)

This article is cited in 13 scientific papers (total in 13 papers)

OPTICS AND NUCLEAR PHYSICS

Experimental study of the optical qubit on the

435

$435$ -nm quadrupole transition in the

^{171}

$^{171}$ Yb

^{+}

$^{+}$ ion

I. V. Zalivako^a, I. A. Semerikov^a, A. S. Borisenko^a, M. D. Aksenov^a, K. Yu. Khabarova^ba, N. N. Kolachevsky^ab

^a Lebedev Physical Institute, Russian Academy of Sciences, Moscow, 119991 Russia
^b Russian Quantum Center, Moscow, 121205 Russia

Full-text PDF (424 kB) Citations (13)

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DOI: https://doi.org/10.31857/S1234567821140019

Abstract: Ultracold ions provide one of the most promising platforms for quantum computing and make it possible to reach record coherence times, the fidelity of preparation and readout operations, and single- and two-qubit operations. Encoding quantum information in an optical qubit based on the

^{2} S_{1 / 2} (F = 0, m_{F} = 0) \to^{2} D_{3 / 2} (F = 2, m_{F} = 0)

$\,^2S_{1/2} (F=0,m_F=0) \rightarrow \,^2D_{3/2}(F=2, m_F=0)$ quadrupole transition in the

^{171}

$^{171}$ Yb

^{+}

$^{+}$ ion at a wavelength of

435.5

$435.5$ nm, which has potential advantages over similar systems in the scaling of the number of qubits and their sensitivity to fluctuations of the magnetic field, is proposed and experimentally studied. The proposed optical qubit in ytterbium is compared to other most widespread types of ion qubits. Experimental results on the implementation of the Pauli-X single-qubit operation are given. The fidelity of the operation is

96 %

$96\%$ after correction to the error of preparation and readout and is limited by the temperature of the ion.

Funding agency	Grant number
Russian Foundation for Basic Research	19-32-90103
The study of the on readout fidelity and the ion temperature measurement that were performed by I. Zalivako were supported by the Russian Foundation for Basic Research (project no. 19-32-90103). Other studies, including the measurement of the single-qubit gate fidelity, that were carried out by other co-authors were supported by the Leading Research Center on Quantum Computing (agreement no. 014/20).

Received: 22.06.2021
Revised: 22.06.2021
Accepted: 22.06.2021

English version:
Journal of Experimental and Theoretical Physics Letters, 2021, Volume 114, Issue 2, Pages 59–64
DOI: https://doi.org/10.1134/S0021364021140113

Bibliographic databases:

Document Type: Article

Language: Russian

Citation: I. V. Zalivako, I. A. Semerikov, A. S. Borisenko, M. D. Aksenov, K. Yu. Khabarova, N. N. Kolachevsky, “Experimental study of the optical qubit on the

435

$435$ -nm quadrupole transition in the

^{171}

$^{171}$ Yb

^{+}

$^{+}$ ion”, Pis'ma v Zh. Èksper. Teoret. Fiz., 114:2 (2021), 53–59; JETP Letters, 114:2 (2021), 59–64

Citation in format AMSBIB

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Linking options:

https://www.mathnet.ru/eng/jetpl6466

https://www.mathnet.ru/eng/jetpl/v114/i2/p53

This publication is cited in the following 13 articles:

K. P. Galstyan, I. V. Zalivako, D. S. Kryuchkov, N. N. Kolachevsky, Radiophys Quantum El, 2025
Nikita Semenin, Ilia Zalivako, Vasily Smirnov, Ilya Semerikov, Alexander Borisenko, Andrey Korolkov, Pavel Sidorov, Kristina Galstyan, Ksenia Khabarova, Nikolay Kolachevsky, Phys. Rev. Applied, 23:3 (2025)
A. K. Fedorov, E. O. Kiktenko, K. Yu. Khabarova, N. N. Kolachevsky, Phys. Usp., 66:11 (2023), 1095–1104
M. A. Aksenov, I. V. Zalivako, I. A. Semerikov, A. S. Borisenko, N. V. Semenin, P. L. Sidorov, A. K. Fedorov, K. Yu. Khabarova, N. N. Kolachevsky, Phys. Rev. A, 107:5 (2023)
Yu I Bogdanov, I A Dmitriev, B I Bantysh, N A Bogdanova, V F Lukichev, Laser Phys. Lett., 20:6 (2023), 065202
Ilia V. Zalivako, Alexander S. Borisenko, Ilya A. Semerikov, Andrey E. Korolkov, Pavel L. Sidorov, Kristina P. Galstyan, Nikita V. Semenin, Vasiliy N. Smirnov, Mikhail D. Aksenov, Aleksey K. Fedorov, Ksenia Yu Khabarova, Nikolay N. Kolachevsky, Front. Quantum Sci. Technol., 2 (2023)
Farhana Anwar, Rafee Mahbub, Ronald A. Coutu, IEEE Trans. Quantum Eng., 4 (2023), 1
K. Yu. Khabarova, I. V. Zalivako, N. N. Kolachevsky, Phys. Usp., 65:12 (2022), 1217–1223
Ksenia Khabarova, Denis Kryuchkov, Alexander Borisenko, Ilia Zalivako, Ilya Semerikov, Mikhail Aksenov, Ivan Sherstov, Timur Abbasov, Anton Tausenev, Nikolay Kolachevsky, Symmetry, 14:10 (2022), 2213
Boris I. Bantysh, Yurii I. Bogdanov, Konstantin V. Rudenko, Vladimir F. Lukichev, International Conference on Micro- and Nano-Electronics 2021, 2022, 84
Yurii I. Bogdanov, Nadejda A. Bogdanova, Dmitriy V. Fastovets, Vladimir F. Lukichev, Konstantin V. Rudenko, Vladimir F. Lukichev, International Conference on Micro- and Nano-Electronics 2021, 2022, 53
Yu. I. Bogdanov, N. A. Bogdanova, D. V. Fastovets, V. F. Lukichev, JETP Letters, 114:6 (2021), 354–361
N. V. Semenin, A. S. Borisenko, I. V. Zalivako, I. A. Semerikov, K. Yu. Khabarova, N. N. Kolachevsky, JETP Letters, 114:8 (2021), 486–492

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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