Abstract

Integration of single-photon sources and detectors to silicon-based photonics opens the possibility of complex circuits for quantum information processing. In this work, we demonstrate integration of quantum dots with a silicon photonic add-drop filter for on-chip filtering and routing of telecom photons. A silicon microdisk resonator acts as a narrow filter that transfers the quantum dot emission and filters the background over a wide wavelength range. Moreover, by tuning the quantum dot emission wavelength over the resonance of the microdisk, we can control the transmission of the quantum dot emission to the drop and through channels of the add-drop filter. This result is a step toward the on-chip control of single photons using silicon photonics for applications in quantum information processing, such as linear optical quantum computation and boson sampling.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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2019 (4)

F. Böhm, N. Nikolay, C. Pyrlik, J. Schlegel, A. Thies, A. Wicht, G. Tränkle, and O. Benson, “On-Chip Integration of Single Solid-State Quantum Emitters with a SiO2 Photonic Platform,” New J. Phys. 21(4), 45007 (2019).

A. Osada, Y. Ota, R. Katsumi, M. Kakuda, S. Iwamoto, and Y. Arakawa, “Strongly coupled single quantum dot-cavity system integrated on a CMOS-processed silicon photonic chip,” Phys. Rev. Appl. 11(2), 24071 (2019).

R. Gourgues, I. E. Zadeh, A. W. Elshaari, G. Bulgarini, J. W. N. Los, J. Zichi, D. Dalacu, P. J. Poole, S. N. Dorenbos, and V. Zwiller, “Controlled integration of selected detectors and emitters in photonic integrated circuits,” Opt. Express 27(3), 3710–3716 (2019).
[Crossref] [PubMed]

C. Papon, X. Zhou, H. Thyrrestrup, Z. Liu, S. Stobbe, R. Schott, A. D. Wieck, A. Ludwig, P. Lodahl, and L. Midolo, “Nanomechanical single-photon routing,” Optica 6(4), 524–530 (2019).

2018 (5)

S. Aghaeimeibodi, B. Desiatov, J.-H. Kim, C.-M. Lee, M. A. Buyukkaya, A. Karasahin, C. J. K. Richardson, R. P. Leavitt, M. Lončar, and E. Waks, “Integration of quantum dots with lithium niobate photonics,” Appl. Phys. Lett. 113(22), 221102 (2018).
[Crossref]

M. Schwartz, E. Schmidt, U. Rengstl, F. Hornung, S. Hepp, S. L. Portalupi, K. Llin, M. Jetter, M. Siegel, and P. Michler, “Fully on-chip single-photon Hanbury-Brown and Twiss experiment on a monolithic semiconductor-superconductor platform,” Nano Lett. 18(11), 6892–6897 (2018).
[Crossref] [PubMed]

A. W. Elshaari, E. Büyüközer, I. E. Zadeh, T. Lettner, P. Zhao, E. Schöll, S. Gyger, M. E. Reimer, D. Dalacu, P. J. Poole, K. D. Jöns, and V. Zwiller, “Strain-Tunable Quantum Integrated Photonics,” Nano Lett. 18(12), 7969–7976 (2018).
[Crossref] [PubMed]

D. J. P. Ellis, A. J. Bennett, C. Dangel, J. P. Lee, J. P. Griffiths, T. A. Mitchell, T. K. Paraiso, P. Spencer, D. A. Ritchie, and A. J. Shields, “Independent indistinguishable quantum light sources on a reconfigurable photonic integrated circuit,” Appl. Phys. Lett. 112(21), 211104 (2018).
[Crossref]

C. Sparrow, E. Martín-López, N. Maraviglia, A. Neville, C. Harrold, J. Carolan, Y. N. Joglekar, T. Hashimoto, N. Matsuda, J. L. O’Brien, D. P. Tew, and A. Laing, “Simulating the vibrational quantum dynamics of molecules using photonics,” Nature 557(7707), 660–667 (2018).
[Crossref] [PubMed]

2017 (8)

M. Davanco, J. Liu, L. Sapienza, C. Z. Zhang, J. V. De Miranda Cardoso, V. Verma, R. Mirin, S. W. Nam, L. Liu, and K. Srinivasan, “Heterogeneous integration for on-chip quantum photonic circuits with single quantum dot devices,” Nat. Commun. 8(1), 889 (2017).
[Crossref] [PubMed]

A. W. Elshaari, I. E. Zadeh, A. Fognini, M. E. Reimer, D. Dalacu, P. J. Poole, V. Zwiller, and K. D. Jöns, “On-chip single photon filtering and multiplexing in hybrid quantum photonic circuits,” Nat. Commun. 8(1), 379 (2017).
[Crossref] [PubMed]

J. H. Kim, S. Aghaeimeibodi, C. J. K. Richardson, R. P. Leavitt, D. Englund, and E. Waks, “Hybrid Integration of Solid-State Quantum Emitters on a Silicon Photonic Chip,” Nano Lett. 17(12), 7394–7400 (2017).
[Crossref] [PubMed]

E. Timurdogan, C. V. Poulton, M. J. Byrd, and M. R. Watts, “Electric field-induced second-order nonlinear optical effects in silicon waveguides,” Nat. Photonics 11(3), 200–206 (2017).
[Crossref]

F. Lenzini, B. Haylock, J. C. Loredo, R. A. Abrahão, N. A. Zakaria, S. Kasture, I. Sagnes, A. Lemaitre, H.-P. Phan, D. V. Dao, P. Senellart, M. P. Almeida, A. G. White, and M. Lobino, “Active demultiplexing of single photons from a solid-state source,” Laser Photonics Rev. 11(3), 1600297 (2017).
[Crossref]

H. Wang, Y. He, Y.-H. Li, Z.-E. Su, B. Li, H.-L. Huang, X. Ding, M.-C. Chen, C. Liu, J. Qin, J.-P. Li, Y.-M. He, C. Schneider, M. Kamp, C.-Z. Peng, S. Höfling, C.-Y. Lu, and J.-W. Pan, “High-efficiency multiphoton boson sampling,” Nat. Photonics 11(6), 361–365 (2017).
[Crossref]

M. Gehl, C. Long, D. Trotter, A. Starbuck, A. Pomerene, J. B. Wright, S. Melgaard, J. Siirola, A. L. Lentine, and C. DeRose, “Operation of high-speed silicon photonic micro-disk modulators at cryogenic temperatures,” Optica 4(3), 374 (2017).
[Crossref]

L. Midolo, S. L. Hansen, W. Zhang, C. Papon, R. Schott, A. Ludwig, A. D. Wieck, P. Lodahl, and S. Stobbe, “Electro-optic routing of photons from a single quantum dot in photonic integrated circuits,” Opt. Express 25(26), 33514–33526 (2017).
[Crossref]

2016 (4)

I. Aharonovich, D. Englund, and M. Toth, “Solid-state single-photon emitters,” Nat. Photonics 10(10), 631–641 (2016).
[Crossref]

J.-H. Kim, T. Cai, C. J. K. Richardson, R. P. Leavitt, and E. Waks, “Two-photon interference from a bright single-photon source at telecom wavelengths,” Optica 3(6), 577 (2016).
[Crossref]

T. Miyazawa, K. Takemoto, Y. Nambu, S. Miki, T. Yamashita, H. Terai, M. Fujiwara, M. Sasaki, Y. Sakuma, M. Takatsu, T. Yamamoto, and Y. Arakawa, “Single-photon emission at 1.5 μ m from an InAs/InP quantum dot with highly suppressed multi-photon emission probabilities,” Appl. Phys. Lett. 109(13), 132106 (2016).
[Crossref]

I. E. Zadeh, A. W. Elshaari, K. D. Jöns, A. Fognini, D. Dalacu, P. J. Poole, M. E. Reimer, and V. Zwiller, “Deterministic Integration of Single Photon Sources in Silicon Based Photonic Circuits,” Nano Lett. 16(4), 2289–2294 (2016).
[Crossref] [PubMed]

2015 (3)

E. Murray, D. J. P. Ellis, T. Meany, F. F. Floether, J. P. Lee, J. P. Griffiths, G. A. C. Jones, I. Farrer, D. A. Ritchie, A. J. Bennett, and A. J. Shields, “Quantum photonics hybrid integration platform,” Appl. Phys. Lett. 107(17), 171108 (2015).
[Crossref]

R. P. Leavitt and C. J. K. Richardson, “Pathway to achieving circular InAs quantum dots directly on (100) InP and to tuning their emission wavelengths toward 1.55 μm,” J. Vac. Sci. Technol. B 33(5), 051202 (2015).
[Crossref]

J. Carolan, C. Harrold, C. Sparrow, E. Martín-López, N. J. Russell, J. W. Silverstone, P. J. Shadbolt, N. Matsuda, M. Oguma, M. Itoh, G. D. Marshall, M. G. Thompson, J. C. F. Matthews, T. Hashimoto, J. L. O’Brien, and A. Laing, “Universal linear optics,” Science 349(6249), 711–716 (2015).

2014 (1)

N. C. Harris, D. Grassani, A. Simbula, M. Pant, M. Galli, T. Baehr-Jones, M. Hochberg, D. Englund, D. Bajoni, and C. Galland, “Integrated Source of Spectrally Filtered Correlated Photons for Large-Scale Quantum Photonic Systems,” Phys. Rev. X 4(4), 041047 (2014).
[Crossref]

2012 (2)

A. Aspuru-Guzik and P. Walther, “Photonic quantum simulators,” Nat. Phys. 8(4), 285–291 (2012).
[Crossref]

W. H. P. Pernice, C. Schuck, O. Minaeva, M. Li, G. N. Goltsman, A. V. Sergienko, and H. X. Tang, “High-speed and high-efficiency travelling wave single-photon detectors embedded in nanophotonic circuits,” Nat. Commun. 3(1), 1325 (2012).
[Crossref] [PubMed]

2010 (2)

G. T. Reed, G. Mashanovich, F. Y. Gardes, and D. J. Thomson, “Silicon optical modulators,” Nat. Photonics 4(8), 518–526 (2010).
[Crossref]

T. D. Ladd, F. Jelezko, R. Laflamme, Y. Nakamura, C. Monroe, and J. L. O’Brien, “Quantum computers,” Nature 464(7285), 45–53 (2010).
[Crossref] [PubMed]

2009 (1)

J. L. O’Brien, A. Furusawa, and J. Vučković, “Photonic quantum technologies,” Nat. Photonics 3(12), 687–695 (2009).
[Crossref]

2008 (1)

H. J. Kimble, “The quantum internet,” Nature 453(7198), 1023–1030 (2008).
[Crossref] [PubMed]

2007 (1)

P. Kok, W. J. Munro, K. Nemoto, T. C. Ralph, J. P. Dowling, and G. J. Milburn, “Linear optical quantum computing with photonic qubits,” Rev. Mod. Phys. 79(1), 135–174 (2007).
[Crossref]

2006 (2)

2001 (1)

E. Knill, R. Laflamme, and G. J. Milburn, “A scheme for efficient quantum computation with linear optics,” Nature 409(6816), 46–52 (2001).
[Crossref] [PubMed]

Abrahão, R. A.

F. Lenzini, B. Haylock, J. C. Loredo, R. A. Abrahão, N. A. Zakaria, S. Kasture, I. Sagnes, A. Lemaitre, H.-P. Phan, D. V. Dao, P. Senellart, M. P. Almeida, A. G. White, and M. Lobino, “Active demultiplexing of single photons from a solid-state source,” Laser Photonics Rev. 11(3), 1600297 (2017).
[Crossref]

Aghaeimeibodi, S.

S. Aghaeimeibodi, B. Desiatov, J.-H. Kim, C.-M. Lee, M. A. Buyukkaya, A. Karasahin, C. J. K. Richardson, R. P. Leavitt, M. Lončar, and E. Waks, “Integration of quantum dots with lithium niobate photonics,” Appl. Phys. Lett. 113(22), 221102 (2018).
[Crossref]

J. H. Kim, S. Aghaeimeibodi, C. J. K. Richardson, R. P. Leavitt, D. Englund, and E. Waks, “Hybrid Integration of Solid-State Quantum Emitters on a Silicon Photonic Chip,” Nano Lett. 17(12), 7394–7400 (2017).
[Crossref] [PubMed]

Aharonovich, I.

I. Aharonovich, D. Englund, and M. Toth, “Solid-state single-photon emitters,” Nat. Photonics 10(10), 631–641 (2016).
[Crossref]

Almeida, M. P.

F. Lenzini, B. Haylock, J. C. Loredo, R. A. Abrahão, N. A. Zakaria, S. Kasture, I. Sagnes, A. Lemaitre, H.-P. Phan, D. V. Dao, P. Senellart, M. P. Almeida, A. G. White, and M. Lobino, “Active demultiplexing of single photons from a solid-state source,” Laser Photonics Rev. 11(3), 1600297 (2017).
[Crossref]

Amans, D.

Arakawa, Y.

A. Osada, Y. Ota, R. Katsumi, M. Kakuda, S. Iwamoto, and Y. Arakawa, “Strongly coupled single quantum dot-cavity system integrated on a CMOS-processed silicon photonic chip,” Phys. Rev. Appl. 11(2), 24071 (2019).

T. Miyazawa, K. Takemoto, Y. Nambu, S. Miki, T. Yamashita, H. Terai, M. Fujiwara, M. Sasaki, Y. Sakuma, M. Takatsu, T. Yamamoto, and Y. Arakawa, “Single-photon emission at 1.5 μ m from an InAs/InP quantum dot with highly suppressed multi-photon emission probabilities,” Appl. Phys. Lett. 109(13), 132106 (2016).
[Crossref]

Aspuru-Guzik, A.

A. Aspuru-Guzik and P. Walther, “Photonic quantum simulators,” Nat. Phys. 8(4), 285–291 (2012).
[Crossref]

Baehr-Jones, T.

N. C. Harris, D. Grassani, A. Simbula, M. Pant, M. Galli, T. Baehr-Jones, M. Hochberg, D. Englund, D. Bajoni, and C. Galland, “Integrated Source of Spectrally Filtered Correlated Photons for Large-Scale Quantum Photonic Systems,” Phys. Rev. X 4(4), 041047 (2014).
[Crossref]

Bajoni, D.

N. C. Harris, D. Grassani, A. Simbula, M. Pant, M. Galli, T. Baehr-Jones, M. Hochberg, D. Englund, D. Bajoni, and C. Galland, “Integrated Source of Spectrally Filtered Correlated Photons for Large-Scale Quantum Photonic Systems,” Phys. Rev. X 4(4), 041047 (2014).
[Crossref]

Benech, P.

Bennett, A. J.

D. J. P. Ellis, A. J. Bennett, C. Dangel, J. P. Lee, J. P. Griffiths, T. A. Mitchell, T. K. Paraiso, P. Spencer, D. A. Ritchie, and A. J. Shields, “Independent indistinguishable quantum light sources on a reconfigurable photonic integrated circuit,” Appl. Phys. Lett. 112(21), 211104 (2018).
[Crossref]

E. Murray, D. J. P. Ellis, T. Meany, F. F. Floether, J. P. Lee, J. P. Griffiths, G. A. C. Jones, I. Farrer, D. A. Ritchie, A. J. Bennett, and A. J. Shields, “Quantum photonics hybrid integration platform,” Appl. Phys. Lett. 107(17), 171108 (2015).
[Crossref]

Benson, O.

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Böhm, F.

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Figures (4)

Fig. 1
Fig. 1 (a) Illustration of the hybrid device containing InAs quantum dots embedded in an InP nanobeam and a silicon photonic microdisk resonator. (b) Simulated light propagation in the coupling region. The colormap represents the electric field intensity (|E|). White solid and dashed lines demonstrate the boundary of the InP nanobeam and silicon waveguide, respectively. (c,d) Simulated transmission of light to the (c) through and (d) drop channels.
Fig. 2
Fig. 2 (a) False color scanning electron microscopy image of the fabricated hybrid device. Red and yellow represent InP and silicon, respectively. (b) A magnified view of the adiabatic tapering in the coupling region. The nanoscale accuracy of our pick-and-place technique allows alignment of these two sub-micron structures. (c,d) Measured normalized intensity at the (c) through and (d) drop channels when exciting the ensemble of the quantum dots above their saturation power.
Fig. 3
Fig. 3 (a) Photoluminescence spectrum of the quantum dots when the excitation and collection spots are located on the nanobeam. (b) Photoluminescence spectrum of the quantum dots when the excitation and collection spots are located on the nanobeam and drop channel, respectively. The insets show the excitation and collection schemes, where the orange dot and the white circle are the excitation and collection spots, respectively. The shaded red boxes show the quantum dot emission that is transferred to the drop channel. (c) Same spectrum as (a) overlapped with the resonator mode. Black dots are the measured data and the solid curve is a Lorentzian fit to the data.
Fig. 4
Fig. 4 (a) A Lorentzian fit to the microdisk resonance (gray area) and center wavelength of the selected quantum dot at 5 K (blue), 35 K (orange), and 50 K (red). We tuned the temperature of the sample to tune the dot on- or off-resonance with the resonator. (b) The normalized integrated intensity of the dot for different detunings measured at the drop channel (black) and through channel (red).

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