Coherent light scattering from a telecom C-band quantum dot

Wells, L.; Müller, T.; Stevenson, R. M.; Skiba-Szymanska, J.; Ritchie, D. A.; Shields, A. J.

doi:10.1038/s41467-023-43757-3

Cited by 5 publications

(6 citation statements)

References 50 publications

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“…This value is similar to the best reported results for C-band single photon sources under nonresonant and resonant excitation (440 ± 45 ps and 447 ± 15 ps). 17,18 A high coherence time could enable high-fidelity quantum information processing and increase the efficiency of repeater-based quantum communication systems at telecom C-band wavelengths. 35 We also evaluated the visibility of the indistinguishable photons based on coincidence counts for the copolarized and cross-polarized photons.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

“…5,6 Among these methods, single photon sources based on semiconductor quantum dots are considered most promising due to their high brightness, 7,8 high purity, 7,9 and indistinguishability. 10−12 For example, InAs/InP quantum dots emit single photons in the telecom C-band spectrum, 9,11−18 which have been extracted utilizing various device structures, such as mesa structures, 12 planar cavities, 17 nanowires, 19 and photonic crystal cavities. 8 However, more efficient coupling to the optical fiber is needed to collect the telecom C-band single photon emission with high efficiency for long-distance quantum networks.…”

Section: ■ Introductionmentioning

confidence: 99%

“…A telecom single-photon source operating around 1,550 nm (C-band) is essential for fiber-based quantum communication networks to minimize transmission loss in the silica fiber. Various approaches have been explored to realize single-photon sources within this spectral window, including spontaneous parametric down-conversion, , as well as materials such as carbon nanotubes, and semiconductor quantum dots. , Among these methods, single photon sources based on semiconductor quantum dots are considered most promising due to their high brightness, , high purity, , and indistinguishability. − For example, InAs/InP quantum dots emit single photons in the telecom C-band spectrum, ,− which have been extracted utilizing various device structures, such as mesa structures, planar cavities, nanowires, and photonic crystal cavities . However, more efficient coupling to the optical fiber is needed to collect the telecom C-band single photon emission with high efficiency for long-distance quantum networks.…”

Section: Introductionmentioning

confidence: 99%

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Efficient, Indistinguishable Telecom C-Band Photons using a Tapered Nanobeam Waveguide

Rahaman,

Harper,

Lee

et al. 2024

ACS Photonics

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Telecom C-band single photons exhibit the lowest attenuation in optical fibers, enabling long-haul, quantum-secured communication. However, efficient coupling with optical fibers is crucial for these single photons to be effective carriers in longdistance transmission. We demonstrate an efficient fiber-coupled single photon source in the telecom C-band using InAs/InP quantum dots coupled to a tapered nanobeam. The tapered nanobeam structure facilitates directional emission that is modematched to a lensed fiber, resulting in a collection efficiency of up to 65% from the nanobeam to the single-mode fiber. Using this approach, we demonstrate single photon count rates of 575 ± 5 Kcps and a single photon purity of g (2) (0) = 0.015 ± 0.003. Additionally, we demonstrate Hong−Ou−Mandel interference from the emitted photons with a visibility of 0.84 ± 0.06. From these measurements, we determine a photon coherence time of 450 ± 20 ps, a factor of only 8.3 away from the lifetime limit. This work represents an important step toward the development of telecom C-band single-photon sources emitting bright, pure, and indistinguishable photons, which are necessary to realize fiberbased long-distance quantum networks.

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Section: ■ Results and Discussionmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Efficient, Indistinguishable Telecom C-Band Photons using a Tapered Nanobeam Waveguide

Rahaman,

Harper,

Lee

et al. 2024

ACS Photonics

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“…To date, application-oriented research on QD-based single-photon sources in the telecom C-band has been limited to incoherent excitation schemes while investigations of coherent pumping schemes have put the focus more on fundamental research. 16,17,33,34 However, in terms of application-ready brightness under coherent pumping, a rate of 500 kHz under continuous-wave excitation has not yet been surpassed, 34 underlining the significance of the implementation in this work. Next, the photon indistinguishability is investigated.…”

Section: Nano Lettersmentioning

confidence: 96%

“…On the basis of this value, the detected count rate (CR raw = 6.50 MHz), and the detection efficiency (76.8%, a detailed description of the efficiencies can be found in section 4 of the Supporting Information), an application-ready rate of polarized single photons with a CR end of 8.14 MHz coupled to a single-mode fiber, corresponding to an end-to-end efficiency (that corresponds to the total system efficiency in ref ) η end of 5.36%, is found. To date, application-oriented research on QD-based single-photon sources in the telecom C-band has been limited to incoherent excitation schemes while investigations of coherent pumping schemes have put the focus more on fundamental research. ,,, However, in terms of application-ready brightness under coherent pumping, a rate of 500 kHz under continuous-wave excitation has not yet been surpassed, underlining the significance of the implementation in this work.…”

mentioning

confidence: 99%

Coherently and Incoherently Pumped Telecom C-Band Single-Photon Source with High Brightness and Indistinguishability

Joos,

Bauer,

Rupp

et al. 2024

Nano Lett.

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Long-range, terrestrial quantum networks require high-brightness single-photon sources emitting in the telecom Cband for maximum transmission rates. For solid-state quantum emitters, the underlying pumping process, i.e., coherent or incoherent excitation schemes, impacts several photon properties such as photon indistinguishability, single-photon purity, and photon number coherence. These properties play a major role in quantum communication applications, the latter in particular for quantum cryptography. Here, we present a versatile telecom Cband single-photon source that is operated coherently and incoherently using two complementary pumping schemes. The source is based on a quantum dot coupled to a circular Bragg grating cavity, whereas coherent (incoherent) operation is performed via the novel SUPER scheme (phonon-assisted excitation). In this way, high end-to-end-efficiencies (η end ) of 5.36% (6.09%) are achieved simultaneously with a small multiphoton contribution g (2) (0) of 0.076 ± 0.001 [g (2) (0) of 0.069 ± 0.001] for coherent (incoherent) operation.

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High-throughput quantum photonic devices emitting indistinguishable photons in the telecom C-band

Holewa,

Vajner,

Zięba-Ostój

et al. 2024

Nat Commun

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Single indistinguishable photons at telecom C-band wavelengths are essential for quantum networks and the future quantum internet. However, high-throughput technology for single-photon generation at 1550 nm remained a missing building block to overcome present limitations in quantum communication and information technologies. Here, we demonstrate the high-throughput fabrication of quantum-photonic integrated devices operating at C-band wavelengths based on epitaxial semiconductor quantum dots. Our technique enables the deterministic integration of single pre-selected quantum emitters into microcavities based on circular Bragg gratings. Respective devices feature the triggered generation of single photons with ultra-high purity and record-high photon indistinguishability. Further improvements in yield and coherence properties will pave the way for implementing single-photon non-linear devices and advanced quantum networks at telecom wavelengths.

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Coherent light scattering from a telecom C-band quantum dot

Cited by 5 publications

References 50 publications

Efficient, Indistinguishable Telecom C-Band Photons using a Tapered Nanobeam Waveguide

Efficient, Indistinguishable Telecom C-Band Photons using a Tapered Nanobeam Waveguide

Coherently and Incoherently Pumped Telecom C-Band Single-Photon Source with High Brightness and Indistinguishability

High-throughput quantum photonic devices emitting indistinguishable photons in the telecom C-band

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