Photoionisation detection of a single Er3+ ion with sub-100-ns time resolution

Yangbo Zhang; Wenda Fan; Jiliang Yang; Hao Guan; Qi Zhang; Xi Qin; Changkui Duan; Gabriele G. de Boo; Brett C. Johnson; Jeffrey C. McCallum; Matthew J. Sellars; Sven Rogge; Chunming Yin; Jiangfeng Du

doi:10.1093/nsr/nwad134

Photoionisation detection of a single Er³⁺ ion with sub-100-ns time resolution

Yangbo Zhang
, Wenda Fan
, Jiliang Yang
, Hao Guan
, Qi Zhang
, Xi Qin
, Changkui Duan
, Gabriele G. de Boo
, Brett C. Johnson
, Jeffrey C. McCallum
, Matthew J. Sellars
, Sven Rogge
, Chunming Yin^*
, Jiangfeng Du

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Efficient detection of single optical centres in solids is essential for quantum information processing, sensing and single-photon generation applications. In this work, we use radio-frequency (RF) reflectometry to electrically detect the photoionisation induced by a single Er3+ ion in Si. The high bandwidth and sensitivity of the RF reflectometry provide sub-100-ns time resolution for the photoionisation detection. With this technique, the optically excited state lifetime of a single Er3+ ion in a Si nano-transistor is measured for the first time to be 0.49 +/- 0.04 mu s. Our results demonstrate an efficient approach for detecting a charge state change induced by Er excitation and relaxation. This approach could be used for fast readout of other single optical centres in solids and is attractive for large-scale integrated optical quantum systems thanks to the multi-channel RF reflectometry demonstrated with frequency multiplexing techniques.

Original language	English
Article number	11
Number of pages	8
Journal	National Science Review
Volume	11
Issue number	4
DOIs	https://doi.org/10.1093/nsr/nwad134
Publication status	Published - 13 Feb 2024

Access to Document

10.1093/nsr/nwad134

Cite this

@article{98adafefd8d14181915575741f9c678c,

title = "Photoionisation detection of a single Er3+ ion with sub-100-ns time resolution",

abstract = "Efficient detection of single optical centres in solids is essential for quantum information processing, sensing and single-photon generation applications. In this work, we use radio-frequency (RF) reflectometry to electrically detect the photoionisation induced by a single Er3+ ion in Si. The high bandwidth and sensitivity of the RF reflectometry provide sub-100-ns time resolution for the photoionisation detection. With this technique, the optically excited state lifetime of a single Er3+ ion in a Si nano-transistor is measured for the first time to be 0.49 +/- 0.04 mu s. Our results demonstrate an efficient approach for detecting a charge state change induced by Er excitation and relaxation. This approach could be used for fast readout of other single optical centres in solids and is attractive for large-scale integrated optical quantum systems thanks to the multi-channel RF reflectometry demonstrated with frequency multiplexing techniques.",

keywords = "RF reflectometry, erbium ions, photoionisation detection, single optical centres",

author = "Yangbo Zhang and Wenda Fan and Jiliang Yang and Hao Guan and Qi Zhang and Xi Qin and Changkui Duan and \{de Boo\}, \{Gabriele G.\} and Johnson, \{Brett C.\} and McCallum, \{Jeffrey C.\} and Sellars, \{Matthew J.\} and Sven Rogge and Chunming Yin and Jiangfeng Du",

year = "2024",

month = feb,

day = "13",

doi = "10.1093/nsr/nwad134",

language = "English",

volume = "11",

journal = "National Science Review",

issn = "2095-5138",

publisher = "Oxford University Press ",

number = "4",

}

TY - JOUR

T1 - Photoionisation detection of a single Er3+ ion with sub-100-ns time resolution

AU - Zhang, Yangbo

AU - Fan, Wenda

AU - Yang, Jiliang

AU - Guan, Hao

AU - Zhang, Qi

AU - Qin, Xi

AU - Duan, Changkui

AU - de Boo, Gabriele G.

AU - Johnson, Brett C.

AU - McCallum, Jeffrey C.

AU - Sellars, Matthew J.

AU - Rogge, Sven

AU - Yin, Chunming

AU - Du, Jiangfeng

PY - 2024/2/13

Y1 - 2024/2/13

N2 - Efficient detection of single optical centres in solids is essential for quantum information processing, sensing and single-photon generation applications. In this work, we use radio-frequency (RF) reflectometry to electrically detect the photoionisation induced by a single Er3+ ion in Si. The high bandwidth and sensitivity of the RF reflectometry provide sub-100-ns time resolution for the photoionisation detection. With this technique, the optically excited state lifetime of a single Er3+ ion in a Si nano-transistor is measured for the first time to be 0.49 +/- 0.04 mu s. Our results demonstrate an efficient approach for detecting a charge state change induced by Er excitation and relaxation. This approach could be used for fast readout of other single optical centres in solids and is attractive for large-scale integrated optical quantum systems thanks to the multi-channel RF reflectometry demonstrated with frequency multiplexing techniques.

AB - Efficient detection of single optical centres in solids is essential for quantum information processing, sensing and single-photon generation applications. In this work, we use radio-frequency (RF) reflectometry to electrically detect the photoionisation induced by a single Er3+ ion in Si. The high bandwidth and sensitivity of the RF reflectometry provide sub-100-ns time resolution for the photoionisation detection. With this technique, the optically excited state lifetime of a single Er3+ ion in a Si nano-transistor is measured for the first time to be 0.49 +/- 0.04 mu s. Our results demonstrate an efficient approach for detecting a charge state change induced by Er excitation and relaxation. This approach could be used for fast readout of other single optical centres in solids and is attractive for large-scale integrated optical quantum systems thanks to the multi-channel RF reflectometry demonstrated with frequency multiplexing techniques.

KW - RF reflectometry

KW - erbium ions

KW - photoionisation detection

KW - single optical centres

UR - https://www.scopus.com/pages/publications/85184840045

U2 - 10.1093/nsr/nwad134

DO - 10.1093/nsr/nwad134

M3 - Article

SN - 2095-5138

VL - 11

JO - National Science Review

JF - National Science Review

IS - 4

M1 - 11

ER -

Photoionisation detection of a single Er³⁺ ion with sub-100-ns time resolution

Abstract

Access to Document

Other files and links

Fingerprint

Cite this