Radiometric characterization of a triggered narrow-bandwidth single-photon source and its use for the calibration of silicon single-photon avalanche detectors

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • Hristina Georgieva
  • Marco López
  • Helmuth Hofer
  • Justus Christinck
  • Beatrice Rodiek
  • Peter Schnauber
  • Arsenty Kaganskiy
  • Tobias Heindel
  • Sven Rodt
  • Stephan Reitzenstein
  • Stefan Kück

Externe Organisationen

  • Physikalisch-Technische Bundesanstalt (PTB)
  • Technische Universität Braunschweig
  • Technische Universität Berlin
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer055001
FachzeitschriftMETROLOGIA
Jahrgang57
Ausgabenummer5
PublikationsstatusVeröffentlicht - Okt. 2020
Extern publiziertJa

Abstract

The traceability of measurements of the parameters characterizing single-photon sources, such as photon flux and optical power, paves the way towards their reliable comparison and quantitative evaluation. In this paper, we present an absolute measurement of the optical power of a single-photon source based on an InGaAs quantum dot under pulsed excitation with a calibrated single-photon avalanche diode (SPAD) detector. For this purpose, a single excitonic line of the quantum dot emission with a bandwidth below 0.1 nm was spectrally filtered by using two tilted interference filters. Since high count rates are essential for many metrological applications, we optimized the setup efficiency by combining high overall transmission of the optical components with a geometrical enhancement of the extraction efficiency of a single quantum dot by a monolithic microlens to reach photon fluxes up to 3.7 · 105 photons per second at the SPADs. A relative calibration of two SPAD detectors with a relative standard uncertainty of 0.7% was carried out and verified by the standard calibration method using an attenuated laser. Finally, an Allan deviation analysis was performed giving an optimal averaging time of 92 s for the photon flux.

ASJC Scopus Sachgebiete

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Radiometric characterization of a triggered narrow-bandwidth single-photon source and its use for the calibration of silicon single-photon avalanche detectors. / Georgieva, Hristina; López, Marco; Hofer, Helmuth et al.
in: METROLOGIA, Jahrgang 57, Nr. 5, 055001, 10.2020.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Georgieva, H, López, M, Hofer, H, Christinck, J, Rodiek, B, Schnauber, P, Kaganskiy, A, Heindel, T, Rodt, S, Reitzenstein, S & Kück, S 2020, 'Radiometric characterization of a triggered narrow-bandwidth single-photon source and its use for the calibration of silicon single-photon avalanche detectors', METROLOGIA, Jg. 57, Nr. 5, 055001. https://doi.org/10.1088/1681-7575/ab9db6
Georgieva, H., López, M., Hofer, H., Christinck, J., Rodiek, B., Schnauber, P., Kaganskiy, A., Heindel, T., Rodt, S., Reitzenstein, S., & Kück, S. (2020). Radiometric characterization of a triggered narrow-bandwidth single-photon source and its use for the calibration of silicon single-photon avalanche detectors. METROLOGIA, 57(5), Artikel 055001. https://doi.org/10.1088/1681-7575/ab9db6
Georgieva H, López M, Hofer H, Christinck J, Rodiek B, Schnauber P et al. Radiometric characterization of a triggered narrow-bandwidth single-photon source and its use for the calibration of silicon single-photon avalanche detectors. METROLOGIA. 2020 Okt;57(5):055001. doi: 10.1088/1681-7575/ab9db6
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AU - Georgieva, Hristina

AU - López, Marco

AU - Hofer, Helmuth

AU - Christinck, Justus

AU - Rodiek, Beatrice

AU - Schnauber, Peter

AU - Kaganskiy, Arsenty

AU - Heindel, Tobias

AU - Rodt, Sven

AU - Reitzenstein, Stephan

AU - Kück, Stefan

N1 - Publisher Copyright: © 2020 BIPM & IOP Publishing Ltd.

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N2 - The traceability of measurements of the parameters characterizing single-photon sources, such as photon flux and optical power, paves the way towards their reliable comparison and quantitative evaluation. In this paper, we present an absolute measurement of the optical power of a single-photon source based on an InGaAs quantum dot under pulsed excitation with a calibrated single-photon avalanche diode (SPAD) detector. For this purpose, a single excitonic line of the quantum dot emission with a bandwidth below 0.1 nm was spectrally filtered by using two tilted interference filters. Since high count rates are essential for many metrological applications, we optimized the setup efficiency by combining high overall transmission of the optical components with a geometrical enhancement of the extraction efficiency of a single quantum dot by a monolithic microlens to reach photon fluxes up to 3.7 · 105 photons per second at the SPADs. A relative calibration of two SPAD detectors with a relative standard uncertainty of 0.7% was carried out and verified by the standard calibration method using an attenuated laser. Finally, an Allan deviation analysis was performed giving an optimal averaging time of 92 s for the photon flux.

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